diff --git "a/spar_bench.json" "b/spar_bench.json" new file mode 100644--- /dev/null +++ "b/spar_bench.json" @@ -0,0 +1,108453 @@ +[ + { + "question_id": 0, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the towel (red point) at 1.0 meters depth. What is the depth of the towel (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000000/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 1, + "data_source": "SPAR-Bench", + "question": "If the center of the chair (red point) is 3.7 meters deep, what is the depth of chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000001/000.jpg" + ], + "data_type": "single_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2, + "data_source": "SPAR-Bench", + "question": "Knowing that the center of chair (red point) is 1.8 meters deep, estimate the depth of bed (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000002/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 3, + "data_source": "SPAR-Bench", + "question": "Given that toilet paper (red point) is at 1.6 meters, predict the depth of toilet (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000003/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 4, + "data_source": "SPAR-Bench", + "question": "The dresser (red point) is placed at a depth of 3.0 meters along the Z-axis(camera coordinate system). Estimate the depth of laundry basket (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000004/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 5, + "data_source": "SPAR-Bench", + "question": "Using the chair (red point) depth of 3.4 meters, determine the depth of tv (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000005/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 6, + "data_source": "SPAR-Bench", + "question": "The depth of the cabinet (red point) at its center is measured as 1.6 meters. Estimate the depth of the computer tower (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000006/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 7, + "data_source": "SPAR-Bench", + "question": "The range hood (red point) is placed at a depth of 1.8 meters along the Z-axis(camera coordinate system). Estimate the depth of picture (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000007/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 8, + "data_source": "SPAR-Bench", + "question": "Using sink (red point) at 1.6 meters as a guide, determine the depth of trash can (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000008/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 9, + "data_source": "SPAR-Bench", + "question": "With trash can (red point) at 1.6 meters, calculate the depth of toilet (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000009/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 10, + "data_source": "SPAR-Bench", + "question": "The monitor (red point) is positioned at 1.6 meters depth. Predict the depth of the keyboard (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000010/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 11, + "data_source": "SPAR-Bench", + "question": "If the pillow (red point) is positioned at 2.3 meters, estimate the depth of the armchair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000011/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 12, + "data_source": "SPAR-Bench", + "question": "The depth of the towel (red point) is given as 1.2 meters. Use this to estimate the depth of toilet paper (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000012/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 13, + "data_source": "SPAR-Bench", + "question": "If the box (red point) is positioned at 1.6 meters, estimate the depth of the box (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000013/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 14, + "data_source": "SPAR-Bench", + "question": "The shower curtain (red point) lies at 1.3 meters depth. Can you estimate the depth of toilet paper holder (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000014/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 15, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the sink (red point) at 1.1 meters, predict the depth of the bag (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000015/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 16, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the column (red point) at 2.9 meters, predict the depth of the chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000016/000.jpg" + ], + "data_type": "single_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 17, + "data_source": "SPAR-Bench", + "question": "If the window (red point) is 3.1 meters deep, how deep is the fire extinguisher (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000017/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 18, + "data_source": "SPAR-Bench", + "question": "With box (red point) at 3.7 meters, calculate the depth of cart (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000018/000.jpg" + ], + "data_type": "single_view", + "answer": "5.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 19, + "data_source": "SPAR-Bench", + "question": "With the picture (red point) depth measured at 2.4 meters, determine the depth of picture (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000019/000.jpg" + ], + "data_type": "single_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 20, + "data_source": "SPAR-Bench", + "question": "If stool (red point) has a depth of 2.2 meters, how deep is the curtain (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000020/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 21, + "data_source": "SPAR-Bench", + "question": "The bottle (red point) is positioned at 1.2 meters depth. Predict the depth of the chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000021/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 22, + "data_source": "SPAR-Bench", + "question": "The computer tower (red point) is 2.0 meters deep in the camera coordinate system. Predict the depth of the chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000022/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 23, + "data_source": "SPAR-Bench", + "question": "If the center of the cabinet (red point) is 5.1 meters deep, what is the depth of shelf (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000023/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 24, + "data_source": "SPAR-Bench", + "question": "Based on the fact that the chair (red point) has a depth of 2.5 meters, what is the depth of the window (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000024/000.jpg" + ], + "data_type": "single_view", + "answer": "6.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 25, + "data_source": "SPAR-Bench", + "question": "If the table (red point) is positioned at 2.6 meters, estimate the depth of the clothes (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000025/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 26, + "data_source": "SPAR-Bench", + "question": "If paper bag (red point) has a depth of 1.2 meters, how deep is the bag (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000026/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 27, + "data_source": "SPAR-Bench", + "question": "With the trash can (red point) having a depth of 3.4 meters, determine the depth of desk (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000027/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 28, + "data_source": "SPAR-Bench", + "question": "The trash bin (red point) lies at 1.4 meters depth. Can you estimate the depth of shelf (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000028/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 29, + "data_source": "SPAR-Bench", + "question": "With table (red point) at a depth of 2.8 meters, determine the approximate depth of shelf (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000029/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 30, + "data_source": "SPAR-Bench", + "question": "Knowing telephone (red point) is at 1.9 meters, calculate the depth of office chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000030/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 31, + "data_source": "SPAR-Bench", + "question": "With the toilet (red point) depth measured at 0.9 meters, determine the depth of toilet paper (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000031/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 32, + "data_source": "SPAR-Bench", + "question": "The box (red point) is situated at 1.9 meters in the camera's Z-axis(camera coordinate system). What is the depth of the box (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000032/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 33, + "data_source": "SPAR-Bench", + "question": "Knowing that chair (red point) is located at 1.5 meters, what is the depth of refrigerator (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000033/000.jpg" + ], + "data_type": "single_view", + "answer": "5.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 34, + "data_source": "SPAR-Bench", + "question": "Given trash can (red point) is positioned at 1.6 meters, how deep is the sink (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000034/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 35, + "data_source": "SPAR-Bench", + "question": "Given that chair (red point) is at 4.9 meters, predict the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000035/000.jpg" + ], + "data_type": "single_view", + "answer": "4.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 36, + "data_source": "SPAR-Bench", + "question": "With the window (red point) at 1.4 meters, determine the depth of table (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000036/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 37, + "data_source": "SPAR-Bench", + "question": "The chair (red point) lies at a depth of 2.7 meters. How deep is the center of chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000037/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 38, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system positions chair (red point) at a depth of 1.8 meters. Predict the depth of chair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000038/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 39, + "data_source": "SPAR-Bench", + "question": "Knowing that the center of pillow (red point) is 2.0 meters deep, estimate the depth of pillow (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000039/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 40, + "data_source": "SPAR-Bench", + "question": "Given toilet (red point) is positioned at 2.0 meters, how deep is the sink (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000040/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 41, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system positions armchair (red point) at a depth of 1.3 meters. Predict the depth of armchair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000041/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 42, + "data_source": "SPAR-Bench", + "question": "Using the book (red point) depth of 1.9 meters, determine the depth of book (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000042/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 43, + "data_source": "SPAR-Bench", + "question": "The center of the recycling bin (red point) is positioned at 2.3 meters. Based on this, predict the depth of the center of the stove (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000043/000.jpg" + ], + "data_type": "single_view", + "answer": "3.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 44, + "data_source": "SPAR-Bench", + "question": "The monitor (red point) lies at 2.1 meters depth. Predict the depth of the office chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000044/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 45, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the shower walls (red point) at 1.8 meters, predict the depth of the towel (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000045/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 46, + "data_source": "SPAR-Bench", + "question": "Knowing that laundry detergent (red point) is located at 1.3 meters, what is the depth of shelf (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000046/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 47, + "data_source": "SPAR-Bench", + "question": "Using person (red point) at 1.1 meters as a guide, determine the depth of monitor (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000047/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 48, + "data_source": "SPAR-Bench", + "question": "With the couch (red point) center located at 2.2 meters in the camera Z-axis(camera coordinate system), determine the depth of backpack (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000048/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 49, + "data_source": "SPAR-Bench", + "question": "The keyboard (red point) at 2.4 meters serves as a depth marker. What is the depth of the computer tower (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000049/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 50, + "data_source": "SPAR-Bench", + "question": "The cup (red point) at a depth of 1.4 meters serves as a reference. How deep is the picture (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000050/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 51, + "data_source": "SPAR-Bench", + "question": "Given that towel (red point) is at 1.0 meters, predict the depth of trash can (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000051/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 52, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of vending machine (red point) at 3.3 meters, calculate the depth of laundry hamper (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000052/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 53, + "data_source": "SPAR-Bench", + "question": "Knowing blinds (red point) is at 3.0 meters, calculate the depth of monitor (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000053/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 54, + "data_source": "SPAR-Bench", + "question": "If microwave (red point) has a depth of 2.0 meters, how deep is the kitchen counter (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000054/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 55, + "data_source": "SPAR-Bench", + "question": "Using sink (red point) at 1.5 meters as a guide, determine the depth of trash bin (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000055/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 56, + "data_source": "SPAR-Bench", + "question": "The pillow (red point) lies at a depth of 2.0 meters. How deep is the center of lamp (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000056/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 57, + "data_source": "SPAR-Bench", + "question": "At a depth of 2.3 meters, the chair (red point) serves as a reference. What is the depth of chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000057/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 58, + "data_source": "SPAR-Bench", + "question": "The camera measures computer tower (red point) at 1.9 meters depth. Predict the depth of the chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000058/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 59, + "data_source": "SPAR-Bench", + "question": "The chair (red point) lies at a depth of 2.4 meters. How deep is the center of backpack (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000059/000.jpg" + ], + "data_type": "single_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 60, + "data_source": "SPAR-Bench", + "question": "With the table (red point) at 1.3 meters, determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000060/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 61, + "data_source": "SPAR-Bench", + "question": "If the armchair (red point) is positioned at 2.0 meters, estimate the depth of the armchair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000061/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 62, + "data_source": "SPAR-Bench", + "question": "With bar (red point) at 1.7 meters, calculate the depth of toilet (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000062/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 63, + "data_source": "SPAR-Bench", + "question": "Given backpack (red point) is positioned at 1.0 meters, how deep is the chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000063/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 64, + "data_source": "SPAR-Bench", + "question": "At 1.5 meters, the backpack (red point) sets the depth reference. Calculate the depth of the chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000064/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 65, + "data_source": "SPAR-Bench", + "question": "With the telephone (red point) having a depth of 0.8 meters, determine the depth of toilet paper (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000065/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 66, + "data_source": "SPAR-Bench", + "question": "At 3.2 meters, the ottoman (red point) sets the depth reference. Calculate the depth of the pillow (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000066/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 67, + "data_source": "SPAR-Bench", + "question": "The chair (red point) at 2.1 meters serves as a depth reference. What is the approximate depth of the chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000067/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 68, + "data_source": "SPAR-Bench", + "question": "With the stool (red point) center located at 4.9 meters in the camera Z-axis(camera coordinate system), determine the depth of ping pong table (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000068/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 69, + "data_source": "SPAR-Bench", + "question": "Using bag (red point) as a reference with its center at 2.4 meters depth, calculate the depth of case of water bottles (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000069/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 70, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system positions bag (red point) at a depth of 2.0 meters. Predict the depth of tube (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000070/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 71, + "data_source": "SPAR-Bench", + "question": "Knowing case of water bottles (red point) is at 1.6 meters, calculate the depth of bin (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000071/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 72, + "data_source": "SPAR-Bench", + "question": "The depth of display case (red point) is 4.1 meters. Based on this, what is the approximate depth of table (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000072/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 73, + "data_source": "SPAR-Bench", + "question": "The camera measures monitor (red point) at 1.9 meters depth. Predict the depth of the monitor (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000073/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 74, + "data_source": "SPAR-Bench", + "question": "The headphones (red point) is positioned at 1.6 meters depth. Predict the depth of the book (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000074/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 75, + "data_source": "SPAR-Bench", + "question": "Using monitor (red point) at 3.4 meters as a guide, determine the depth of keyboard (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000075/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 76, + "data_source": "SPAR-Bench", + "question": "At a depth of 2.5 meters, the seating (red point) serves as a reference. What is the depth of chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000076/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 77, + "data_source": "SPAR-Bench", + "question": "If the whiteboard (red point) lies at a depth of 3.1 meters, how deep is the center of the backpack (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000077/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 78, + "data_source": "SPAR-Bench", + "question": "With the window (red point) center located at 2.7 meters in the camera Z-axis(camera coordinate system), determine the depth of clothes (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000078/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 79, + "data_source": "SPAR-Bench", + "question": "The table (red point) at a depth of 2.4 meters serves as a reference. How deep is the chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000079/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 80, + "data_source": "SPAR-Bench", + "question": "With book (red point) at a depth of 1.7 meters, determine the approximate depth of book (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000080/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 81, + "data_source": "SPAR-Bench", + "question": "If shoes (red point) has a depth of 2.4 meters, how deep is the towel (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000081/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 82, + "data_source": "SPAR-Bench", + "question": "The cooking pan (red point) lies at 3.8 meters depth. Predict the depth of the kitchen cabinets (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000082/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 83, + "data_source": "SPAR-Bench", + "question": "If the dish rack (red point) lies at a depth of 2.0 meters, how deep is the center of the kitchen cabinets (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000083/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 84, + "data_source": "SPAR-Bench", + "question": "Given the telephone (red point) is located at a depth of 2.5 meters in the Z-axis of the camera coordinate system, how far in depth is the chair (blue point) at its center? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000084/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 85, + "data_source": "SPAR-Bench", + "question": "If the center of the chair (red point) is 1.3 meters deep, what is the depth of box (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000085/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 86, + "data_source": "SPAR-Bench", + "question": "The center of the bottle (red point) is positioned at 1.1 meters. Based on this, predict the depth of the center of the container (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000086/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 87, + "data_source": "SPAR-Bench", + "question": "The depth of the chair (red point) at its center is measured as 3.1 meters. Estimate the depth of the chair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000087/000.jpg" + ], + "data_type": "single_view", + "answer": "5.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 88, + "data_source": "SPAR-Bench", + "question": "The box (red point) at a depth of 2.5 meters serves as a reference. How deep is the copier (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000088/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 89, + "data_source": "SPAR-Bench", + "question": "The keyboard (red point) is placed at a depth of 1.1 meters along the Z-axis(camera coordinate system). Estimate the depth of monitor (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000089/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 90, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is 2.7 meters deep in the camera coordinate system. Predict the depth of the chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000090/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 91, + "data_source": "SPAR-Bench", + "question": "The refrigerator (red point) is placed at a depth of 3.7 meters along the Z-axis(camera coordinate system). Estimate the depth of vacuum cleaner (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000091/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 92, + "data_source": "SPAR-Bench", + "question": "Knowing that shelf (red point) is located at 2.9 meters, what is the depth of shelf (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000092/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 93, + "data_source": "SPAR-Bench", + "question": "Given shelf (red point) is positioned at 1.8 meters, how deep is the compost bin (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000093/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 94, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is 2.4 meters deep in the camera coordinate system. Predict the depth of the chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000094/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 95, + "data_source": "SPAR-Bench", + "question": "The towel (red point) is situated at 2.1 meters in the camera's Z-axis(camera coordinate system). What is the depth of the shelf (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000095/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 96, + "data_source": "SPAR-Bench", + "question": "Given kitchen cabinet (red point) is positioned at 3.2 meters, how deep is the kitchen island (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000096/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 97, + "data_source": "SPAR-Bench", + "question": "Given that picture (red point) is at 2.8 meters, predict the depth of table (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000097/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 98, + "data_source": "SPAR-Bench", + "question": "The vending machine (red point) is placed at a depth of 4.6 meters along the Z-axis(camera coordinate system). Estimate the depth of laundry hamper (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000098/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 99, + "data_source": "SPAR-Bench", + "question": "The soap dish (red point) lies at a depth of 1.1 meters. How deep is the center of ledge (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000099/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 100, + "data_source": "SPAR-Bench", + "question": "With cabinet (red point) at a depth of 1.7 meters, determine the approximate depth of shelf (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000100/000.jpg" + ], + "data_type": "single_view", + "answer": "4.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 101, + "data_source": "SPAR-Bench", + "question": "The depth of the chair (red point) is recorded at 4.4 meters. Estimate the depth of chair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000101/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 102, + "data_source": "SPAR-Bench", + "question": "With the sink (red point) at 1.4 meters, determine the depth of kitchen cabinet (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000102/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 103, + "data_source": "SPAR-Bench", + "question": "The instrument case (red point) lies at a depth of 1.4 meters. How deep is the center of box (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000103/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 104, + "data_source": "SPAR-Bench", + "question": "The bar (red point) is located at 1.4 meters in depth. Based on this, calculate the depth of toilet paper (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000104/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 105, + "data_source": "SPAR-Bench", + "question": "The depth of the chair (red point) at its center is measured as 2.2 meters. Estimate the depth of the chair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000105/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 106, + "data_source": "SPAR-Bench", + "question": "If the center of the trash can (red point) is 3.5 meters deep, what is the depth of stack of chairs (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000106/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 107, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system specifies the towel (red point) depth as 1.0 meters. Estimate the depth of the soap dispenser (blue point) and . Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000107/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 108, + "data_source": "SPAR-Bench", + "question": "The suitcase (red point) at 2.5 meters serves as a depth reference. What is the approximate depth of the curtain (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000108/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 109, + "data_source": "SPAR-Bench", + "question": "The depth of the towel (red point) is given as 1.2 meters. Use this to estimate the depth of sink (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000109/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 110, + "data_source": "SPAR-Bench", + "question": "Based on the fact that the bathroom stall (red point) has a depth of 1.6 meters, what is the depth of the toilet (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000110/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 111, + "data_source": "SPAR-Bench", + "question": "If the bottle (red point) is 2.1 meters deep, how deep is the picture (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000111/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 112, + "data_source": "SPAR-Bench", + "question": "The monitor (red point) is 1.3 meters deep in the camera coordinate system. Predict the depth of the chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000112/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 113, + "data_source": "SPAR-Bench", + "question": "The towel (red point) lies at 1.9 meters depth. Can you estimate the depth of toilet paper (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000113/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 114, + "data_source": "SPAR-Bench", + "question": "Given that seat (red point) is at 2.8 meters, predict the depth of coffee table (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000114/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 115, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is positioned at 3.5 meters depth. Predict the depth of the fuse box (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000115/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 116, + "data_source": "SPAR-Bench", + "question": "The depth of the mat (red point) is recorded at 2.2 meters. Estimate the depth of stool (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000116/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 117, + "data_source": "SPAR-Bench", + "question": "The printer (red point) is located at 2.0 meters in depth. Based on this, calculate the depth of chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000117/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 118, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is located at a depth of 2.4 meters. What is the depth of the chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000118/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 119, + "data_source": "SPAR-Bench", + "question": "Given paper bag (red point) is positioned at 3.2 meters, how deep is the picture (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000119/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 120, + "data_source": "SPAR-Bench", + "question": "The ironing board (red point) is situated at 1.4 meters in the camera's Z-axis(camera coordinate system). What is the depth of the towel (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000120/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 121, + "data_source": "SPAR-Bench", + "question": "If the office chair (red point) is 1.7 meters deep, how deep is the office chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000121/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 122, + "data_source": "SPAR-Bench", + "question": "If the center of the bottle (red point) is 1.4 meters deep, what is the depth of bottle (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000122/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 123, + "data_source": "SPAR-Bench", + "question": "With the window (red point) center located at 2.4 meters in the camera Z-axis(camera coordinate system), determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000123/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 124, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is placed at a depth of 1.8 meters along the Z-axis(camera coordinate system). Estimate the depth of chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000124/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 125, + "data_source": "SPAR-Bench", + "question": "The paper towel dispenser (red point) is located at a depth of 2.4 meters. Estimate the depth of the jacket (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000125/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 126, + "data_source": "SPAR-Bench", + "question": "The depth of the glass doors (red point) is given as 2.2 meters. Use this to estimate the depth of bin (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000126/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 127, + "data_source": "SPAR-Bench", + "question": "At 2.1 meters, the chair (red point) sets a depth reference. What is the approximate depth of the chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000127/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 128, + "data_source": "SPAR-Bench", + "question": "With the box (red point) at 2.7 meters, determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000128/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 129, + "data_source": "SPAR-Bench", + "question": "The camera measures bench (red point) at 1.9 meters depth. Predict the depth of the shoes (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000129/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 130, + "data_source": "SPAR-Bench", + "question": "The pillow (red point) lies at 2.8 meters depth. Can you estimate the depth of backpack (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000130/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 131, + "data_source": "SPAR-Bench", + "question": "Given the lamp (red point) at 2.4 meters along the positive Z-axis(camera coordinate system), predict the depth of mini fridge (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000131/000.jpg" + ], + "data_type": "single_view", + "answer": "4.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 132, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is located at a depth of 1.8 meters. Estimate the depth of the chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000132/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 133, + "data_source": "SPAR-Bench", + "question": "The depth of refrigerator (red point) is 2.9 meters. Based on this, what is the approximate depth of microwave (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000133/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 134, + "data_source": "SPAR-Bench", + "question": "The depth of books (red point) is 2.2 meters. Based on this, what is the approximate depth of books (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000134/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 135, + "data_source": "SPAR-Bench", + "question": "With the table (red point) having a depth of 1.7 meters, determine the depth of chair (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000135/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 136, + "data_source": "SPAR-Bench", + "question": "If the center of the toilet paper (red point) is 1.5 meters deep, what is the depth of mat (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000136/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 137, + "data_source": "SPAR-Bench", + "question": "The depth of the compost bin (red point) is given as 1.3 meters. Use this to estimate the depth of recycling bin (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000137/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 138, + "data_source": "SPAR-Bench", + "question": "The books (red point) is positioned at 2.5 meters depth. Predict the depth of the books (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000138/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 139, + "data_source": "SPAR-Bench", + "question": "The chair (red point) at a depth of 3.6 meters serves as a reference. How deep is the chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000139/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 140, + "data_source": "SPAR-Bench", + "question": "The piano bench (red point) is placed at a depth of 2.2 meters along the Z-axis(camera coordinate system). Estimate the depth of piano (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000140/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 141, + "data_source": "SPAR-Bench", + "question": "Given that mirror (red point) is at 1.8 meters, predict the depth of sink (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000141/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 142, + "data_source": "SPAR-Bench", + "question": "With the backpack (red point) at 2.1 meters, determine the depth of nightstand (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000142/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 143, + "data_source": "SPAR-Bench", + "question": "With book (red point) at a depth of 2.0 meters, determine the approximate depth of book (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000143/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 144, + "data_source": "SPAR-Bench", + "question": "If the broom (red point) is 1.2 meters deep, how deep is the toilet (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000144/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 145, + "data_source": "SPAR-Bench", + "question": "With chair (red point) at 1.9 meters, calculate the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000145/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 146, + "data_source": "SPAR-Bench", + "question": "The mailbox (red point) is located at 2.0 meters in depth. Based on this, calculate the depth of box (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000146/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 147, + "data_source": "SPAR-Bench", + "question": "Using office chair (red point) as a reference with its center at 1.5 meters depth, calculate the depth of office chair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000147/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 148, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the ottoman (red point) at 2.5 meters, predict the depth of the table (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000148/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 149, + "data_source": "SPAR-Bench", + "question": "If the nightstand (red point) is 1.9 meters deep, how deep is the shoes (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000149/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 150, + "data_source": "SPAR-Bench", + "question": "The picture (red point) is positioned at 1.9 meters depth. Predict the depth of the picture (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000150/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 151, + "data_source": "SPAR-Bench", + "question": "The cabinet (red point) is situated at 1.9 meters in the camera's Z-axis(camera coordinate system). What is the depth of the bag (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000151/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 152, + "data_source": "SPAR-Bench", + "question": "The towel (red point) is located at a depth of 1.4 meters. Estimate the depth of the toilet (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000152/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 153, + "data_source": "SPAR-Bench", + "question": "Given the bucket (red point) at 2.6 meters along the positive Z-axis(camera coordinate system), predict the depth of copier (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000153/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 154, + "data_source": "SPAR-Bench", + "question": "Using table (red point) as a reference with its center at 2.1 meters depth, calculate the depth of chair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000154/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 155, + "data_source": "SPAR-Bench", + "question": "Given the storage bin (red point) at 2.3 meters along the positive Z-axis(camera coordinate system), predict the depth of bag (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000155/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 156, + "data_source": "SPAR-Bench", + "question": "The mouse (red point) is located at a depth of 1.8 meters. What is the depth of the monitor (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000156/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 157, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the towel (red point) at 1.1 meters, predict the depth of the trash can (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000157/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 158, + "data_source": "SPAR-Bench", + "question": "With toilet paper (red point) at a depth of 1.0 meters, determine the approximate depth of toilet (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000158/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 159, + "data_source": "SPAR-Bench", + "question": "Given the chair (red point) at 2.6 meters along the positive Z-axis(camera coordinate system), predict the depth of lamp (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000159/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 160, + "data_source": "SPAR-Bench", + "question": "With telephone (red point) at a depth of 2.1 meters, determine the approximate depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000160/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 161, + "data_source": "SPAR-Bench", + "question": "At a depth of 0.8 meters, the desk lamp (red point) serves as a reference. What is the depth of monitor (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000161/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 162, + "data_source": "SPAR-Bench", + "question": "The desk (red point) at 2.6 meters serves as a depth marker. What is the depth of the mini fridge (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000162/000.jpg" + ], + "data_type": "single_view", + "answer": "3.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 163, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the keyboard (red point) at 1.6 meters depth. What is the depth of the telephone (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000163/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 164, + "data_source": "SPAR-Bench", + "question": "The monitor (red point) is placed at a depth of 0.9 meters along the Z-axis(camera coordinate system). Estimate the depth of monitor (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000164/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 165, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is situated at 3.1 meters in the camera's Z-axis(camera coordinate system). What is the depth of the coffee table (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000165/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 166, + "data_source": "SPAR-Bench", + "question": "Using bucket (red point) as a reference with its center at 2.6 meters depth, calculate the depth of box (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000166/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 167, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of chair (red point) at 2.3 meters, calculate the depth of plate (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000167/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 168, + "data_source": "SPAR-Bench", + "question": "The center of the books (red point) is positioned at 1.9 meters. Based on this, predict the depth of the center of the books (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000168/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 169, + "data_source": "SPAR-Bench", + "question": "If the table (red point) lies at a depth of 5.2 meters, how deep is the center of the couch (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000169/000.jpg" + ], + "data_type": "single_view", + "answer": "6.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 170, + "data_source": "SPAR-Bench", + "question": "The depth of shower curtain (red point) is measured as 1.2 meters. Use this to find the depth of soap dish (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000170/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 171, + "data_source": "SPAR-Bench", + "question": "The depth of the computer tower (red point) at its center is measured as 2.2 meters. Estimate the depth of the wheel (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000171/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 172, + "data_source": "SPAR-Bench", + "question": "Using paper cutter (red point) as a reference with its center at 1.0 meters depth, calculate the depth of paper (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000172/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 173, + "data_source": "SPAR-Bench", + "question": "The chair (red point) at 2.2 meters serves as a depth marker. What is the depth of the trash can (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000173/000.jpg" + ], + "data_type": "single_view", + "answer": "4.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 174, + "data_source": "SPAR-Bench", + "question": "With pillow (red point) at a depth of 1.7 meters, determine the approximate depth of trash can (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000174/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 175, + "data_source": "SPAR-Bench", + "question": "The toilet (red point) is placed at a depth of 0.9 meters along the Z-axis(camera coordinate system). Estimate the depth of towel (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000175/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 176, + "data_source": "SPAR-Bench", + "question": "The depth of the books (red point) at its center is measured as 1.5 meters. Estimate the depth of the books (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000176/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 177, + "data_source": "SPAR-Bench", + "question": "The depth of the instrument case (red point) is recorded at 1.2 meters. Estimate the depth of chair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000177/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 178, + "data_source": "SPAR-Bench", + "question": "If the picture (red point) lies at a depth of 1.9 meters, how deep is the center of the lamp (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000178/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 179, + "data_source": "SPAR-Bench", + "question": "The recycling bin (red point) at a depth of 1.2 meters serves as a reference. How deep is the compost bin (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000179/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 180, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the coffee table (red point) at 2.1 meters depth. What is the depth of the books (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000180/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 181, + "data_source": "SPAR-Bench", + "question": "Knowing that chair (red point) is located at 1.9 meters, what is the depth of chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000181/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 182, + "data_source": "SPAR-Bench", + "question": "Using the chair (red point) depth of 3.1 meters, determine the depth of fireplace (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000182/000.jpg" + ], + "data_type": "single_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 183, + "data_source": "SPAR-Bench", + "question": "The toilet (red point) is located at a depth of 1.3 meters. Estimate the depth of the plunger (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000183/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 184, + "data_source": "SPAR-Bench", + "question": "The depth of bucket (red point) is 3.4 meters. Based on this, what is the approximate depth of chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000184/000.jpg" + ], + "data_type": "single_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 185, + "data_source": "SPAR-Bench", + "question": "The cable duct (red point) is located at a depth of 3.3 meters. What is the depth of the spray bottle (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000185/000.jpg" + ], + "data_type": "single_view", + "answer": "5.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 186, + "data_source": "SPAR-Bench", + "question": "The printer (red point) at 4.4 meters serves as a depth reference. What is the approximate depth of the box (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000186/000.jpg" + ], + "data_type": "single_view", + "answer": "5.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 187, + "data_source": "SPAR-Bench", + "question": "The depth of wooden pallet (red point) is 3.0 meters. Based on this, what is the approximate depth of box (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000187/000.jpg" + ], + "data_type": "single_view", + "answer": "8.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 188, + "data_source": "SPAR-Bench", + "question": "At 2.7 meters, the telephone (red point) sets a depth reference. What is the approximate depth of the book (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000188/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 189, + "data_source": "SPAR-Bench", + "question": "Using the electrical duct (red point) depth of 1.5 meters, determine the depth of office chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000189/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 190, + "data_source": "SPAR-Bench", + "question": "If the center of the tray (red point) is 2.6 meters deep, what is the depth of kitchen cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000190/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 191, + "data_source": "SPAR-Bench", + "question": "The center of the chair (red point) is positioned at 4.5 meters. Based on this, predict the depth of the center of the remove (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000191/000.jpg" + ], + "data_type": "single_view", + "answer": "5.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 192, + "data_source": "SPAR-Bench", + "question": "The shelf (red point) at a depth of 2.0 meters serves as a reference. How deep is the window frame (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000192/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 193, + "data_source": "SPAR-Bench", + "question": "The bottle (red point) at 2.0 meters serves as a depth marker. What is the depth of the mouse pad (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000193/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 194, + "data_source": "SPAR-Bench", + "question": "The depth of the intercom device (red point) at its center is measured as 3.8 meters. Estimate the depth of the headphone (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000194/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 195, + "data_source": "SPAR-Bench", + "question": "The depth of cup (red point) is measured as 0.9 meters. Use this to find the depth of office chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000195/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 196, + "data_source": "SPAR-Bench", + "question": "Given window (red point) is positioned at 6.4 meters, how deep is the heater (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000196/000.jpg" + ], + "data_type": "single_view", + "answer": "5.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 197, + "data_source": "SPAR-Bench", + "question": "The depth of copy machine (red point) is measured as 0.8 meters. Use this to find the depth of bottle crate (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000197/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 198, + "data_source": "SPAR-Bench", + "question": "The depth of the window frame (red point) is given as 1.1 meters. Use this to estimate the depth of sink (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000198/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 199, + "data_source": "SPAR-Bench", + "question": "If the joined tables (red point) lies at a depth of 4.6 meters, how deep is the center of the chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000199/000.jpg" + ], + "data_type": "single_view", + "answer": "6.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 200, + "data_source": "SPAR-Bench", + "question": "The depth of the box (red point) is recorded at 3.1 meters. Estimate the depth of beanbag (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000200/000.jpg" + ], + "data_type": "single_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 201, + "data_source": "SPAR-Bench", + "question": "The center of the cables (red point) is positioned at 4.1 meters. Based on this, predict the depth of the center of the helmet (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000201/000.jpg" + ], + "data_type": "single_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 202, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system specifies the bottle (red point) depth as 1.2 meters. Estimate the depth of the bottle (blue point) and . Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000202/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 203, + "data_source": "SPAR-Bench", + "question": "Given the light switch (red point) is located at a depth of 3.6 meters in the Z-axis of the camera coordinate system, how far in depth is the switch (blue point) at its center? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000203/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 204, + "data_source": "SPAR-Bench", + "question": "With the towel (red point) depth measured at 0.6 meters, determine the depth of container (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000204/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 205, + "data_source": "SPAR-Bench", + "question": "If toilet paper (red point) has a depth of 0.8 meters, how deep is the bathtub (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000205/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 206, + "data_source": "SPAR-Bench", + "question": "Based on the fact that the keyboard (red point) has a depth of 1.9 meters, what is the depth of the table (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000206/000.jpg" + ], + "data_type": "single_view", + "answer": "4.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 207, + "data_source": "SPAR-Bench", + "question": "The depth of the monitor (red point) is given as 0.9 meters. Use this to estimate the depth of window (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000207/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 208, + "data_source": "SPAR-Bench", + "question": "At 2.8 meters, the chair (red point) sets the depth reference. Calculate the depth of the table (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000208/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 209, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system specifies the chair (red point) depth as 3.4 meters. Estimate the depth of the heater (blue point) and . Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000209/000.jpg" + ], + "data_type": "single_view", + "answer": "6.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 210, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is 4.1 meters deep in the camera coordinate system. Predict the depth of the coffee maker (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000210/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 211, + "data_source": "SPAR-Bench", + "question": "The kitchen cabinet (red point) at 1.6 meters serves as a depth marker. What is the depth of the jar (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000211/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 212, + "data_source": "SPAR-Bench", + "question": "At 1.4 meters, the monitor (red point) sets a depth reference. What is the approximate depth of the laptop (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000212/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 213, + "data_source": "SPAR-Bench", + "question": "The chair (red point) at 4.3 meters serves as a depth reference. What is the approximate depth of the book (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000213/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 214, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of towel (red point) at 4.9 meters, calculate the depth of oven (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000214/000.jpg" + ], + "data_type": "single_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 215, + "data_source": "SPAR-Bench", + "question": "The cardboard box (red point) is located at a depth of 1.4 meters. What is the depth of the storage cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000215/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 216, + "data_source": "SPAR-Bench", + "question": "With the chair (red point) having a depth of 1.1 meters, determine the depth of bottle spray (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000216/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 217, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of toothpaste (red point) at 1.2 meters, calculate the depth of tap (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000217/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 218, + "data_source": "SPAR-Bench", + "question": "Given the toothpaste (red point) at 0.9 meters along the positive Z-axis(camera coordinate system), predict the depth of sink (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000218/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 219, + "data_source": "SPAR-Bench", + "question": "The light switch (red point) lies at a depth of 2.8 meters. How deep is the center of towel (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000219/000.jpg" + ], + "data_type": "single_view", + "answer": "3.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 220, + "data_source": "SPAR-Bench", + "question": "The desk lamp (red point) lies at a depth of 1.1 meters. How deep is the center of desk lamp (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000220/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 221, + "data_source": "SPAR-Bench", + "question": "The keyboard (red point) at 6.0 meters serves as a depth reference. What is the approximate depth of the mouse (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000221/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 222, + "data_source": "SPAR-Bench", + "question": "With the SPLIT (red point) having a depth of 6.4 meters, determine the depth of chair (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000222/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 223, + "data_source": "SPAR-Bench", + "question": "The center of the board (red point) is positioned at 2.5 meters. Based on this, predict the depth of the center of the pipe (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000223/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 224, + "data_source": "SPAR-Bench", + "question": "If cable socket (red point) has a depth of 1.2 meters, how deep is the printer (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000224/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 225, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system positions monitor (red point) at a depth of 1.6 meters. Predict the depth of book (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000225/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 226, + "data_source": "SPAR-Bench", + "question": "If the toilet brush (red point) is positioned at 1.8 meters, estimate the depth of the flush button (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000226/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 227, + "data_source": "SPAR-Bench", + "question": "The depth of split (red point) is 0.9 meters. Based on this, what is the approximate depth of box (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000227/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 228, + "data_source": "SPAR-Bench", + "question": "Given the power socket (red point) is located at a depth of 1.0 meters in the Z-axis of the camera coordinate system, how far in depth is the trash bin (blue point) at its center? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000228/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 229, + "data_source": "SPAR-Bench", + "question": "With water filter (red point) at 2.3 meters, calculate the depth of dishwasher (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000229/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 230, + "data_source": "SPAR-Bench", + "question": "The blinds (red point) is situated at 2.7 meters in the camera's Z-axis(camera coordinate system). What is the depth of the monitor (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000230/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 231, + "data_source": "SPAR-Bench", + "question": "Knowing that the center of foldable closet (red point) is 2.3 meters deep, estimate the depth of power socket (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000231/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 232, + "data_source": "SPAR-Bench", + "question": "The kitchen cabinet (red point) lies at 0.6 meters depth. Predict the depth of the knife set (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000232/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 233, + "data_source": "SPAR-Bench", + "question": "Using the lan (red point) depth of 5.0 meters, determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000233/000.jpg" + ], + "data_type": "single_view", + "answer": "3.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 234, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system specifies the box (red point) depth as 1.8 meters. Estimate the depth of the box (blue point) and . Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000234/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 235, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system specifies the monitor (red point) depth as 1.0 meters. Estimate the depth of the pen holder (blue point) and . Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000235/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 236, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of chair (red point) at 4.4 meters, calculate the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000236/000.jpg" + ], + "data_type": "single_view", + "answer": "5.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 237, + "data_source": "SPAR-Bench", + "question": "Using shoes (red point) as a reference with its center at 0.8 meters depth, calculate the depth of broom (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000237/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 238, + "data_source": "SPAR-Bench", + "question": "The towel (red point) at 1.2 meters serves as a depth reference. What is the approximate depth of the heater (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000238/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 239, + "data_source": "SPAR-Bench", + "question": "Given that office chair (red point) is at 1.6 meters, predict the depth of cabinet (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000239/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 240, + "data_source": "SPAR-Bench", + "question": "At 3.5 meters, the trash can (red point) sets the depth reference. Calculate the depth of the computer tower (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000240/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 241, + "data_source": "SPAR-Bench", + "question": "The depth of the cushion (red point) is recorded at 6.9 meters. Estimate the depth of table (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000241/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 242, + "data_source": "SPAR-Bench", + "question": "With box (red point) at 2.4 meters, calculate the depth of air duct (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000242/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 243, + "data_source": "SPAR-Bench", + "question": "The hole puncher (red point) lies at a depth of 1.2 meters. How deep is the center of stapler (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000243/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 244, + "data_source": "SPAR-Bench", + "question": "Using the plant pot (red point) depth of 1.2 meters, determine the depth of pillow (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000244/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 245, + "data_source": "SPAR-Bench", + "question": "Knowing that coffee machine (red point) is located at 3.1 meters, what is the depth of cup (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000245/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 246, + "data_source": "SPAR-Bench", + "question": "Given the monitor (red point) at 1.9 meters along the positive Z-axis(camera coordinate system), predict the depth of plant (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000246/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 247, + "data_source": "SPAR-Bench", + "question": "Given knife set (red point) is positioned at 1.2 meters, how deep is the kitchen cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000247/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 248, + "data_source": "SPAR-Bench", + "question": "If books (red point) has a depth of 1.2 meters, how deep is the chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000248/000.jpg" + ], + "data_type": "single_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 249, + "data_source": "SPAR-Bench", + "question": "The SPLIT (red point) is placed at a depth of 1.2 meters along the Z-axis(camera coordinate system). Estimate the depth of storage rack (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000249/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 250, + "data_source": "SPAR-Bench", + "question": "The toilet cleaner (red point) is placed at a depth of 1.1 meters along the Z-axis(camera coordinate system). Estimate the depth of hairdryer (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000250/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 251, + "data_source": "SPAR-Bench", + "question": "The depth of exhaust fan (red point) is 1.8 meters. Based on this, what is the approximate depth of exhaust fan (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000251/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 252, + "data_source": "SPAR-Bench", + "question": "If the paper stapler (red point) is positioned at 2.4 meters, estimate the depth of the paper stapler (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000252/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 253, + "data_source": "SPAR-Bench", + "question": "With pot cover (red point) at 0.6 meters, calculate the depth of plate (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000253/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 254, + "data_source": "SPAR-Bench", + "question": "With the printer (red point) at 3.8 meters, determine the depth of box (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000254/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 255, + "data_source": "SPAR-Bench", + "question": "The depth of the bottles (red point) at its center is measured as 2.7 meters. Estimate the depth of the power socket (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000255/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 256, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is placed at a depth of 4.5 meters along the Z-axis(camera coordinate system). Estimate the depth of chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000256/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 257, + "data_source": "SPAR-Bench", + "question": "With the chair (red point) at 1.6 meters, determine the depth of paper (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000257/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 258, + "data_source": "SPAR-Bench", + "question": "The trash can (red point) lies at 3.7 meters depth. Can you estimate the depth of table (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000258/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 259, + "data_source": "SPAR-Bench", + "question": "Given the box (red point) at 1.3 meters along the positive Z-axis(camera coordinate system), predict the depth of box (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000259/000.jpg" + ], + "data_type": "single_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 260, + "data_source": "SPAR-Bench", + "question": "The heater (red point) lies at a depth of 3.5 meters. How deep is the center of coffee maker (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000260/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 261, + "data_source": "SPAR-Bench", + "question": "Given box (red point) is positioned at 2.1 meters, how deep is the chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000261/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 262, + "data_source": "SPAR-Bench", + "question": "Knowing shelve (red point) is at 1.3 meters, calculate the depth of toilet brush (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000262/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 263, + "data_source": "SPAR-Bench", + "question": "Given the broom (red point) is located at a depth of 1.4 meters in the Z-axis of the camera coordinate system, how far in depth is the shoes (blue point) at its center? Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000263/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 264, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the outlet (red point) at 2.8 meters, predict the depth of the heater (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000264/000.jpg" + ], + "data_type": "single_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 265, + "data_source": "SPAR-Bench", + "question": "The camera measures chair (red point) at 4.4 meters depth. Predict the depth of the table (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000265/000.jpg" + ], + "data_type": "single_view", + "answer": "5.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 266, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of box (red point) at 1.5 meters, calculate the depth of paper (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000266/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 267, + "data_source": "SPAR-Bench", + "question": "With the plate (red point) center located at 1.6 meters in the camera Z-axis(camera coordinate system), determine the depth of frame (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000267/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 268, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the pipe (red point) at 4.5 meters, predict the depth of the cardboard (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000268/000.jpg" + ], + "data_type": "single_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 269, + "data_source": "SPAR-Bench", + "question": "The depth of cardboard box (red point) is 1.8 meters. Based on this, what is the approximate depth of cardboard box (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000269/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 270, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the window frame (red point) at 2.5 meters, predict the depth of the shelf (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000270/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 271, + "data_source": "SPAR-Bench", + "question": "The paper (red point) lies at a depth of 2.1 meters. How deep is the center of trash can (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000271/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 272, + "data_source": "SPAR-Bench", + "question": "With the copy machine (red point) center located at 1.2 meters in the camera Z-axis(camera coordinate system), determine the depth of electric box (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000272/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 273, + "data_source": "SPAR-Bench", + "question": "With the plant (red point) having a depth of 1.0 meters, determine the depth of decoration (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000273/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 274, + "data_source": "SPAR-Bench", + "question": "The light switch (red point) lies at 2.8 meters depth. Can you estimate the depth of cushion (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000274/000.jpg" + ], + "data_type": "single_view", + "answer": "4.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 275, + "data_source": "SPAR-Bench", + "question": "With the table (red point) center located at 4.7 meters in the camera Z-axis(camera coordinate system), determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000275/000.jpg" + ], + "data_type": "single_view", + "answer": "4.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 276, + "data_source": "SPAR-Bench", + "question": "Using the printer (red point) depth of 2.9 meters, determine the depth of arm chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000276/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 277, + "data_source": "SPAR-Bench", + "question": "If bottle (red point) has a depth of 2.4 meters, how deep is the cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000277/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 278, + "data_source": "SPAR-Bench", + "question": "The flush button (red point) is located at a depth of 1.1 meters. What is the depth of the toilet paper dispenser (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000278/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 279, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the power socket (red point) at 3.2 meters depth. What is the depth of the bottle (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000279/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 280, + "data_source": "SPAR-Bench", + "question": "The camera measures power socket (red point) at 2.9 meters depth. Predict the depth of the cup (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000280/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 281, + "data_source": "SPAR-Bench", + "question": "With the chair (red point) at 3.2 meters, determine the depth of joined tables (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000281/000.jpg" + ], + "data_type": "single_view", + "answer": "5.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 282, + "data_source": "SPAR-Bench", + "question": "Using chair (red point) at 1.9 meters as a guide, determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000282/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 283, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of sink (red point) at 0.6 meters, calculate the depth of shelve (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000283/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 284, + "data_source": "SPAR-Bench", + "question": "If the chair (red point) is 1.9 meters deep, how deep is the light switch (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000284/000.jpg" + ], + "data_type": "single_view", + "answer": "5.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 285, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the books (red point) at 1.7 meters depth. What is the depth of the heater (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000285/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 286, + "data_source": "SPAR-Bench", + "question": "The electrical duct (red point) is situated at 3.1 meters in the camera's Z-axis(camera coordinate system). What is the depth of the alligator clips (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000286/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 287, + "data_source": "SPAR-Bench", + "question": "Based on the fact that the jar (red point) has a depth of 2.0 meters, what is the depth of the bottle (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000287/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 288, + "data_source": "SPAR-Bench", + "question": "The depth of kitchen drawer (red point) is 1.0 meters. Based on this, what is the approximate depth of shelf (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000288/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 289, + "data_source": "SPAR-Bench", + "question": "If the book (red point) is 2.0 meters deep, how deep is the book (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000289/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 290, + "data_source": "SPAR-Bench", + "question": "The window frame (red point) at a depth of 2.6 meters serves as a reference. How deep is the column (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000290/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 291, + "data_source": "SPAR-Bench", + "question": "With the whiteboard (red point) depth measured at 2.8 meters, determine the depth of chair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000291/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 292, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system specifies the plant pot (red point) depth as 5.7 meters. Estimate the depth of the printer (blue point) and . Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000292/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 293, + "data_source": "SPAR-Bench", + "question": "The chair (red point) lies at 2.8 meters depth. Can you estimate the depth of pillow (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000293/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 294, + "data_source": "SPAR-Bench", + "question": "Given the chair (red point) at 4.9 meters along the positive Z-axis(camera coordinate system), predict the depth of coat hanger (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000294/000.jpg" + ], + "data_type": "single_view", + "answer": "6.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 295, + "data_source": "SPAR-Bench", + "question": "At 1.6 meters, the bookshelf (red point) sets a depth reference. What is the approximate depth of the book (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000295/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 296, + "data_source": "SPAR-Bench", + "question": "The monitor (red point) is positioned at 2.5 meters depth. Predict the depth of the book (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000296/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 297, + "data_source": "SPAR-Bench", + "question": "The electrical pipe (red point) is located at 2.0 meters in depth. Based on this, calculate the depth of spray bottle (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000297/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 298, + "data_source": "SPAR-Bench", + "question": "With stool (red point) at a depth of 2.2 meters, determine the approximate depth of box (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000298/000.jpg" + ], + "data_type": "single_view", + "answer": "4.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 299, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the books (red point) at 3.0 meters depth. What is the depth of the paper (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000299/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 300, + "data_source": "SPAR-Bench", + "question": "With monitor (red point) at 1.4 meters, calculate the depth of monitor (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000300/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 301, + "data_source": "SPAR-Bench", + "question": "Given light switch (red point) is positioned at 0.7 meters, how deep is the shower curtain (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000301/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 302, + "data_source": "SPAR-Bench", + "question": "If the trash bin (red point) lies at a depth of 2.7 meters, how deep is the center of the heater (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000302/000.jpg" + ], + "data_type": "single_view", + "answer": "4.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 303, + "data_source": "SPAR-Bench", + "question": "The box (red point) is located at a depth of 1.6 meters. What is the depth of the book (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000303/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 304, + "data_source": "SPAR-Bench", + "question": "At a depth of 2.5 meters, the heater (red point) serves as a reference. What is the depth of table (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000304/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 305, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is 0.8 meters deep in the camera coordinate system. Predict the depth of the window frame (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000305/000.jpg" + ], + "data_type": "single_view", + "answer": "5.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 306, + "data_source": "SPAR-Bench", + "question": "The refrigerator (red point) is placed at a depth of 1.9 meters along the Z-axis(camera coordinate system). Estimate the depth of knife (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000306/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 307, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the sofa (red point) at 2.1 meters depth. What is the depth of the structure (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000307/000.jpg" + ], + "data_type": "single_view", + "answer": "6.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 308, + "data_source": "SPAR-Bench", + "question": "Using mouse (red point) at 1.3 meters as a guide, determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000308/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 309, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system specifies the pan (red point) depth as 2.1 meters. Estimate the depth of the kitchen counter (blue point) and . Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000309/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 310, + "data_source": "SPAR-Bench", + "question": "The book (red point) at a depth of 1.5 meters serves as a reference. How deep is the book (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000310/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 311, + "data_source": "SPAR-Bench", + "question": "The bathroom shelf (red point) is placed at a depth of 1.4 meters along the Z-axis(camera coordinate system). Estimate the depth of rug (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000311/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 312, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of heater (red point) at 2.9 meters, calculate the depth of power socket (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000312/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 313, + "data_source": "SPAR-Bench", + "question": "Given the books (red point) at 2.0 meters along the positive Z-axis(camera coordinate system), predict the depth of box (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000313/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 314, + "data_source": "SPAR-Bench", + "question": "Given the window frame (red point) at 3.5 meters along the positive Z-axis(camera coordinate system), predict the depth of column (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000314/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 315, + "data_source": "SPAR-Bench", + "question": "If the center of the table (red point) is 1.6 meters deep, what is the depth of office chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000315/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 316, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the plug (red point) at 2.8 meters, predict the depth of the plug (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000316/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 317, + "data_source": "SPAR-Bench", + "question": "The depth of the blinds (red point) is recorded at 2.0 meters. Estimate the depth of plant pot (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000317/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 318, + "data_source": "SPAR-Bench", + "question": "With the bottle (red point) depth measured at 2.8 meters, determine the depth of bottle (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000318/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 319, + "data_source": "SPAR-Bench", + "question": "Given the chair (red point) at 2.8 meters along the positive Z-axis(camera coordinate system), predict the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000319/000.jpg" + ], + "data_type": "single_view", + "answer": "4.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 320, + "data_source": "SPAR-Bench", + "question": "Using the box (red point) depth of 4.2 meters, determine the depth of kitchen cabinet (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000320/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 321, + "data_source": "SPAR-Bench", + "question": "The book (red point) at 2.1 meters serves as a depth marker. What is the depth of the book (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000321/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 322, + "data_source": "SPAR-Bench", + "question": "Given the kitchen cabinet (red point) at 1.0 meters along the positive Z-axis(camera coordinate system), predict the depth of plate (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000322/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 323, + "data_source": "SPAR-Bench", + "question": "Given trash bin (red point) is positioned at 1.3 meters, how deep is the fire extinguisher (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000323/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 324, + "data_source": "SPAR-Bench", + "question": "Knowing that whiteboard eraser (red point) is located at 1.4 meters, what is the depth of box (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000324/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 325, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the monitor (red point) at 1.6 meters, predict the depth of the whiteboard (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000325/000.jpg" + ], + "data_type": "single_view", + "answer": "4.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 326, + "data_source": "SPAR-Bench", + "question": "The depth of dishwasher (red point) is measured as 1.1 meters. Use this to find the depth of trash bin (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000326/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 327, + "data_source": "SPAR-Bench", + "question": "If the sink (red point) lies at a depth of 1.5 meters, how deep is the center of the laundry basket (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000327/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 328, + "data_source": "SPAR-Bench", + "question": "If the chair (red point) lies at a depth of 4.2 meters, how deep is the center of the whiteboard (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000328/000.jpg" + ], + "data_type": "single_view", + "answer": "5.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 329, + "data_source": "SPAR-Bench", + "question": "The book (red point) is located at a depth of 2.2 meters. Estimate the depth of the book (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000329/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 330, + "data_source": "SPAR-Bench", + "question": "If the chair (red point) is positioned at 3.6 meters, estimate the depth of the chair (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000330/000.jpg" + ], + "data_type": "single_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 331, + "data_source": "SPAR-Bench", + "question": "The structure (red point) lies at 2.2 meters depth. Predict the depth of the cabinet (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000331/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 332, + "data_source": "SPAR-Bench", + "question": "At 2.2 meters, the bottle (red point) sets the depth reference. Calculate the depth of the table (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000332/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 333, + "data_source": "SPAR-Bench", + "question": "The depth of box (red point) is measured as 3.7 meters. Use this to find the depth of copier (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000333/000.jpg" + ], + "data_type": "single_view", + "answer": "5.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 334, + "data_source": "SPAR-Bench", + "question": "Knowing that cushion (red point) is located at 5.5 meters, what is the depth of cushion (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000334/000.jpg" + ], + "data_type": "single_view", + "answer": "5.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 335, + "data_source": "SPAR-Bench", + "question": "The depth of the desk lamp (red point) is recorded at 2.6 meters. Estimate the depth of box (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000335/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 336, + "data_source": "SPAR-Bench", + "question": "At a depth of 1.2 meters, the bed (red point) serves as a reference. What is the depth of shelf (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000336/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 337, + "data_source": "SPAR-Bench", + "question": "With structure (red point) at a depth of 2.5 meters, determine the approximate depth of window sill (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000337/000.jpg" + ], + "data_type": "single_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 338, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system specifies the pedestal fan (red point) depth as 5.8 meters. Estimate the depth of the table (blue point) and . Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000338/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 339, + "data_source": "SPAR-Bench", + "question": "Given the monitor (red point) is located at a depth of 2.2 meters in the Z-axis of the camera coordinate system, how far in depth is the power socket (blue point) at its center? Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000339/000.jpg" + ], + "data_type": "single_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 340, + "data_source": "SPAR-Bench", + "question": "Using bag (red point) as a reference with its center at 4.2 meters depth, calculate the depth of trash can (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000340/000.jpg" + ], + "data_type": "single_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 341, + "data_source": "SPAR-Bench", + "question": "Given sink (red point) is positioned at 2.3 meters, how deep is the utensils (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000341/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 342, + "data_source": "SPAR-Bench", + "question": "The power strip (red point) at 1.4 meters serves as a depth marker. What is the depth of the paper shredder (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000342/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 343, + "data_source": "SPAR-Bench", + "question": "Knowing that the center of table (red point) is 1.6 meters deep, estimate the depth of whiteboard (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000343/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 344, + "data_source": "SPAR-Bench", + "question": "The cup (red point) is positioned at 1.3 meters depth. Predict the depth of the kitchen drawer (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000344/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 345, + "data_source": "SPAR-Bench", + "question": "The camera measures chair (red point) at 1.1 meters depth. Predict the depth of the heater (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000345/000.jpg" + ], + "data_type": "single_view", + "answer": "4.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 346, + "data_source": "SPAR-Bench", + "question": "The depth of the power socket (red point) is recorded at 4.7 meters. Estimate the depth of chair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000346/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 347, + "data_source": "SPAR-Bench", + "question": "Knowing that headphone (red point) is located at 1.1 meters, what is the depth of laptop (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000347/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 348, + "data_source": "SPAR-Bench", + "question": "The depth of the pipe (red point) is given as 3.9 meters. Use this to estimate the depth of cardboard (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000348/000.jpg" + ], + "data_type": "single_view", + "answer": "3.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 349, + "data_source": "SPAR-Bench", + "question": "At 1.4 meters, the trash bin (red point) sets the depth reference. Calculate the depth of the dishwasher (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000349/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 350, + "data_source": "SPAR-Bench", + "question": "With the paper (red point) center located at 4.1 meters in the camera Z-axis(camera coordinate system), determine the depth of paper (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000350/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 351, + "data_source": "SPAR-Bench", + "question": "At 4.0 meters, the shoes (red point) sets the depth reference. Calculate the depth of the clothes (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000351/000.jpg" + ], + "data_type": "single_view", + "answer": "4.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 352, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the kitchen counter (red point) at 2.0 meters depth. What is the depth of the smoke alarm (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000352/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 353, + "data_source": "SPAR-Bench", + "question": "Using drying rack (red point) at 2.3 meters as a guide, determine the depth of table (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000353/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 354, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is placed at a depth of 2.6 meters along the Z-axis(camera coordinate system). Estimate the depth of chair (blue point) and Calculate or judge based on the 3D center points of these objects. The unit is meter. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000354/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 355, + "data_source": "SPAR-Bench", + "question": "At a depth of 3.4 meters, the light switch (red point) serves as a reference. What is the depth of kitchen drawer (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000355/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 356, + "data_source": "SPAR-Bench", + "question": "Using the knife set (red point) depth of 1.5 meters, determine the depth of kettle (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000356/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 357, + "data_source": "SPAR-Bench", + "question": "With the reflection (red point) at 3.2 meters, determine the depth of dishwasher (blue point). Calculate or judge based on the 3D center points of these objects. The unit is meter. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000357/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 358, + "data_source": "SPAR-Bench", + "question": "At 2.7 meters, the chair (red point) sets a depth reference. What is the approximate depth of the chair (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000358/000.jpg" + ], + "data_type": "single_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 359, + "data_source": "SPAR-Bench", + "question": "The platform trolley (red point) at 5.4 meters serves as a depth reference. What is the approximate depth of the table (blue point)? Calculate or judge based on the 3D center points of these objects. The unit is meter. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000359/000.jpg" + ], + "data_type": "single_view", + "answer": "5.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 360, + "data_source": "SPAR-Bench", + "question": "Using bucket (red point) with a known depth of 2.5, calculate the absolute value of the depth difference between chair (green point) and fuse box (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000360/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 361, + "data_source": "SPAR-Bench", + "question": "Based on kitchen cabinets's (red point) depth of 2.8, compute the relative depth difference between frying pan (green point) and kitchen cabinet (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000361/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 362, + "data_source": "SPAR-Bench", + "question": "With printer (red point) at a depth of 3.6, calculate the depth difference (absolute value) between chair (green point) and sofa chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000362/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 363, + "data_source": "SPAR-Bench", + "question": "Given that chair (red point) has a depth of 1.6, calculate the absolute value of the depth difference between chair (green point) and chair (blue point). Express the result in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000363/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 364, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is known to be 4.1, calculate the depth difference between shower wall (green point) and chair (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000364/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 365, + "data_source": "SPAR-Bench", + "question": "With chair (red point) at a depth of 3.2, calculate the depth difference (in meters) between column (green point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000365/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 366, + "data_source": "SPAR-Bench", + "question": "Assume the depth of picture (red point) is 2.4. How much deeper or shallower is bed (green point) relative to lamp (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000366/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 367, + "data_source": "SPAR-Bench", + "question": "If bookshelf (red point) is at a depth of 1.9, compute the absolute depth difference between case of water bottles (green point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000367/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 368, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between table (green point) and chair (blue point), given that chair (red point) is at a depth of 1.3? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000368/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 369, + "data_source": "SPAR-Bench", + "question": "Based on pillow's (red point) depth of 1.5, compute the relative depth difference between backpack (green point) and helmet (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000369/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 370, + "data_source": "SPAR-Bench", + "question": "Using armchair (red point) with a depth of 2.9, compute the absolute depth difference between armchair (green point) and books (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000370/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 371, + "data_source": "SPAR-Bench", + "question": "The depth of sofa chair (red point) is 2.6. Use this reference to find the absolute depth difference between vending machine (green point) and picture (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000371/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 372, + "data_source": "SPAR-Bench", + "question": "Using table (red point) with a depth of 2.9, compute the absolute depth difference between window (green point) and chair (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000372/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 373, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is 1.5, determine the absolute depth difference between chair (green point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000373/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 374, + "data_source": "SPAR-Bench", + "question": "Assume curtain (red point) has a depth of 2.3. What is the difference in depth between chair (green point) and pillow (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000374/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 375, + "data_source": "SPAR-Bench", + "question": "If the depth of clock (red point) is 1.3, determine the absolute depth difference between window (green point) and desk (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000375/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 376, + "data_source": "SPAR-Bench", + "question": "If the depth of paper towel roll (red point) is set at 1.3, how far apart in depth are objects water bottle (green point) and carton (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000376/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 377, + "data_source": "SPAR-Bench", + "question": "Using kitchen cabinets (red point) with a known depth of 3.9, calculate the absolute value of the depth difference between oven (green point) and refrigerator (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000377/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 378, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is set to 2.3. What is the absolute depth difference in meters between chair (green point) and seating (blue point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000378/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 379, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 2.5. Using this as a reference, find the depth difference between chair (green point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000379/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 380, + "data_source": "SPAR-Bench", + "question": "If jar (red point) has a depth of 1.8, calculate the difference in depth between laptop (green point) and shelf (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000380/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 381, + "data_source": "SPAR-Bench", + "question": "The depth of book (red point) is 2.7. Determine the absolute depth difference between picture (green point) and fireplace (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000381/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 382, + "data_source": "SPAR-Bench", + "question": "Assume cup (red point) has a depth of 1.8. How far apart in depth are cup (green point) and bookshelf (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000382/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 383, + "data_source": "SPAR-Bench", + "question": "The depth of couch (red point) is given as 1.9. Find the absolute depth difference in meters between chair (green point) and backpack (blue point). Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000383/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 384, + "data_source": "SPAR-Bench", + "question": "Assume the depth of monitor (red point) is 1.2. How much difference in depth is there between keyboard (green point) and chair (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000384/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 385, + "data_source": "SPAR-Bench", + "question": "Given that picture (red point) is at a depth of 2.6, calculate the absolute depth difference between picture (green point) and table (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000385/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 386, + "data_source": "SPAR-Bench", + "question": "If the depth of books (red point) is 2.2, calculate the absolute depth difference in meters between chair (green point) and monitor (blue point). Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000386/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 387, + "data_source": "SPAR-Bench", + "question": "If office chair (red point) is at a depth of 2.7, compute the absolute depth difference between chair (green point) and office chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000387/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 388, + "data_source": "SPAR-Bench", + "question": "The depth of microwave (red point) is given as 1.7. Calculate how far apart in depth box (green point) and range hood (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000388/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 389, + "data_source": "SPAR-Bench", + "question": "Given that toilet (red point) is at a depth of 1.3, calculate the absolute depth difference between ledge (green point) and sink (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000389/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 390, + "data_source": "SPAR-Bench", + "question": "The depth of toilet paper (red point) is 1.7. Determine the absolute depth difference between toilet (green point) and trash can (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000390/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 391, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is set at 2.2, how far apart in depth are objects couch (green point) and backpack (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000391/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 392, + "data_source": "SPAR-Bench", + "question": "The known depth of telephone (red point) is 2.5. Calculate the absolute difference in depth (in meters) between keyboard (green point) and computer tower (blue point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000392/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 393, + "data_source": "SPAR-Bench", + "question": "Using the depth of dumbbell (red point) as 1.7, determine the absolute difference in depth between computer tower (green point) and chair (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000393/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 394, + "data_source": "SPAR-Bench", + "question": "Assume the depth of office chair (red point) is 2.4. How much deeper or shallower is chair (green point) relative to office chair (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000394/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 395, + "data_source": "SPAR-Bench", + "question": "If the depth of shelf (red point) is 1.4, determine the absolute depth difference between shoes (green point) and shoes (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000395/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 396, + "data_source": "SPAR-Bench", + "question": "The depth of book (red point) is 3.6. How far apart in depth are book (green point) and books (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000396/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 397, + "data_source": "SPAR-Bench", + "question": "Using trash can (red point) with a known depth of 4.5, calculate the absolute value of the depth difference between table (green point) and trash can (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000397/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 398, + "data_source": "SPAR-Bench", + "question": "Assume chair (red point) has a depth of 2.7. How far apart in depth are chair (green point) and chair (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000398/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 399, + "data_source": "SPAR-Bench", + "question": "Assume the depth of lamp (red point) is 2.2. What is the depth difference between pillow (green point) and nightstand (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000399/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 400, + "data_source": "SPAR-Bench", + "question": "The depth of recycling bin (red point) is 1.9. Use this information to find the absolute depth difference between trash can (green point) and stool (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000400/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 401, + "data_source": "SPAR-Bench", + "question": "If headphones (red point) is at a depth of 1.6, compute the absolute depth difference between book (green point) and monitor (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000401/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 402, + "data_source": "SPAR-Bench", + "question": "The depth of backpack (red point) is set to 1.6. What is the absolute depth difference in meters between chair (green point) and backpack (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000402/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 403, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 3.1. How far apart in depth are chair (green point) and chair (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000403/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 404, + "data_source": "SPAR-Bench", + "question": "If the depth of trash can (red point) is 1.9, determine the absolute depth difference between shelf (green point) and power outlet (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000404/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 405, + "data_source": "SPAR-Bench", + "question": "Using mirror (red point) with a depth of 1.3, compute the absolute depth difference between picture (green point) and window (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000405/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 406, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of books (red point) is 1.6, how much difference in depth is there between plant (green point) and books (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000406/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 407, + "data_source": "SPAR-Bench", + "question": "The known depth of shower head (red point) is 2.2. What is the absolute depth difference between the objects shower control valve (green point) and rail (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000407/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 408, + "data_source": "SPAR-Bench", + "question": "Given that chair (red point) has a depth of 1.5, calculate the absolute value of the depth difference between chair (green point) and chair (blue point). Express the result in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000408/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 409, + "data_source": "SPAR-Bench", + "question": "If window (red point) is at a depth of 2.8, calculate the absolute depth difference between tissue box (green point) and window (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000409/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 410, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between chair (green point) and chair (blue point), given that oven (red point) is at a depth of 3.4? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000410/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 411, + "data_source": "SPAR-Bench", + "question": "The depth of trash can (red point) is known to be 2.2. Calculate the absolute value of the depth difference in meters between window (green point) and recycling bin (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000411/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 412, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 2.6. How far apart in depth are chair (green point) and chair (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000412/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 413, + "data_source": "SPAR-Bench", + "question": "Assume soda stream (red point) has a depth of 1.7. How much difference in depth exists between carton (green point) and paper towel roll (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000413/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 414, + "data_source": "SPAR-Bench", + "question": "Using seat (red point) with a known depth of 2.7, calculate the absolute value of the depth difference between toilet paper holder (green point) and wet floor sign (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000414/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 415, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between speaker (green point) and monitor (blue point) if the depth of telephone (red point) is 2.8? State the result in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000415/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 416, + "data_source": "SPAR-Bench", + "question": "Using cart (red point) with a known depth of 1.6, calculate the absolute value of the depth difference between cabinets (green point) and printer (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000416/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 417, + "data_source": "SPAR-Bench", + "question": "Using the depth of toilet (red point) as 2.7, determine the absolute difference in depth between bathroom vanity (green point) and mat (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000417/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 418, + "data_source": "SPAR-Bench", + "question": "Based on toilet's (red point) depth of 2.7, compute the relative depth difference between stool (green point) and bottle (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000418/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 419, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between chair (green point) and chair (blue point) if the depth of chair (red point) is 2.7? State the result in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000419/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 420, + "data_source": "SPAR-Bench", + "question": "Using the depth of laptop (red point) as 1.4, find the absolute difference in depth between cup (green point) and cooler (blue point). State the result in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000420/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 421, + "data_source": "SPAR-Bench", + "question": "If chair (red point) has a depth of 2.0, calculate the difference in depth between monitor (green point) and chair (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000421/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 422, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between recycling bin (green point) and table (blue point), given that trash can (red point) is at a depth of 1.6? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000422/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 423, + "data_source": "SPAR-Bench", + "question": "If the depth of armchair (red point) is given as 4.0, how far apart in depth are book (green point) and armchair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000423/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 424, + "data_source": "SPAR-Bench", + "question": "If bottle (red point) is at a depth of 2.0, compute the depth difference between shelf (green point) and monitor (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000424/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 425, + "data_source": "SPAR-Bench", + "question": "The depth of book (red point) is set to 1.3. What is the absolute depth difference in meters between picture (green point) and plant (blue point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000425/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 426, + "data_source": "SPAR-Bench", + "question": "If the depth of cart (red point) is 1.9, determine the absolute depth difference between copier (green point) and box (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000426/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 427, + "data_source": "SPAR-Bench", + "question": "The depth of books (red point) is 1.9. Use this information to find the absolute depth difference between jacket (green point) and books (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000427/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 428, + "data_source": "SPAR-Bench", + "question": "The known depth of bag (red point) is 1.7. Calculate how much difference in depth there is between shoes (green point) and luggage stand (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000428/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 429, + "data_source": "SPAR-Bench", + "question": "With table (red point) at a depth of 2.5, calculate the depth difference (absolute value) between bathtub (green point) and vacuum cleaner (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000429/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 430, + "data_source": "SPAR-Bench", + "question": "The known depth of box (red point) is 1.5. Calculate the absolute difference in depth (in meters) between sleeping bag (green point) and case of water bottles (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000430/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 431, + "data_source": "SPAR-Bench", + "question": "If window (red point) is at a depth of 3.4, compute the depth difference between shelf (green point) and monitor (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000431/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 432, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between refrigerator (green point) and kitchen cabinet (blue point), given that sink (red point) is at a depth of 2.3? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000432/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 433, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 2.5. Using this reference, what is the absolute depth difference in meters between chair (green point) and chair (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000433/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 434, + "data_source": "SPAR-Bench", + "question": "The known depth of chair (red point) is 1.6. Using this as a reference, calculate the absolute depth difference between chair (green point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000434/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 435, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between chair (green point) and chair (blue point), given that chair (red point) is at a depth of 2.7? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000435/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 436, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is 1.9, determine the absolute depth difference between chair (green point) and chair (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000436/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 437, + "data_source": "SPAR-Bench", + "question": "Assume chair (red point) has a depth of 3.6. What is the difference in depth between furnace (green point) and shelf (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000437/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 438, + "data_source": "SPAR-Bench", + "question": "Assume the depth of kitchen cabinets (red point) is 2.1. What is the depth difference between oven (green point) and kitchen cabinet (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000438/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 439, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between armchair (green point) and books (blue point) if the depth of books (red point) is 2.3? State the result in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000439/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 440, + "data_source": "SPAR-Bench", + "question": "Using the depth of chair (red point) as 1.3, find the absolute difference in depth between plant (green point) and mouse (blue point). State the result in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000440/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 441, + "data_source": "SPAR-Bench", + "question": "The depth of desk (red point) is 1.8. How far apart in depth are monitor (green point) and box (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000441/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 442, + "data_source": "SPAR-Bench", + "question": "Assume the depth of monitor (red point) is 2.6. What is the depth difference between monitor (green point) and monitor (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000442/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 443, + "data_source": "SPAR-Bench", + "question": "If glass doors (red point) is at a depth of 2.6, compute the depth difference between chair (green point) and chair (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000443/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 444, + "data_source": "SPAR-Bench", + "question": "If the depth of sink (red point) is known to be 1.4, calculate the depth difference between mirror (green point) and bar (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000444/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 445, + "data_source": "SPAR-Bench", + "question": "Assume chair (red point) has a depth of 1.9. What is the difference in depth between chair (green point) and chair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000445/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 446, + "data_source": "SPAR-Bench", + "question": "If lamp (red point) has a depth of 2.8, calculate the difference in depth between pillow (green point) and clothing (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000446/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 447, + "data_source": "SPAR-Bench", + "question": "The depth of plant (red point) is given as 2.3. Find the absolute depth difference in meters between bin (green point) and bottle (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000447/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 448, + "data_source": "SPAR-Bench", + "question": "Assume window (red point) has a depth of 2.8. What is the difference in depth between printer (green point) and window (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000448/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 449, + "data_source": "SPAR-Bench", + "question": "If the depth of tv (red point) is set at 1.4, how far apart in depth are objects dresser (green point) and instrument case (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000449/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 450, + "data_source": "SPAR-Bench", + "question": "The known depth of knife block (red point) is 2.1. Calculate how much difference in depth there is between kitchen cabinets (green point) and kitchenaid mixer (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000450/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 451, + "data_source": "SPAR-Bench", + "question": "If the depth of kitchen cabinet (red point) is given as 1.3, how far apart in depth are bag of coffee beans (green point) and cooking pot (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000451/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 452, + "data_source": "SPAR-Bench", + "question": "Using pool table (red point) as a reference with a depth of 2.2, determine how far apart in depth chair (green point) and chair (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000452/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 453, + "data_source": "SPAR-Bench", + "question": "Based on chair's (red point) depth of 3.0, compute the relative depth difference between chair (green point) and chair (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000453/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 454, + "data_source": "SPAR-Bench", + "question": "Given that nightstand (red point) has a depth of 2.5, calculate the absolute value of the depth difference between lamp (green point) and bag (blue point). Express the result in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000454/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 455, + "data_source": "SPAR-Bench", + "question": "Given that desk (red point) has a depth of 3.7, determine the absolute depth difference between stool (green point) and trash can (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000455/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 456, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 2.5. Use this reference to find the absolute depth difference between clothes (green point) and bed (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000456/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 457, + "data_source": "SPAR-Bench", + "question": "If pillow (red point) is at a depth of 1.9, what is the depth difference between pillow (green point) and desk (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000457/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 458, + "data_source": "SPAR-Bench", + "question": "The depth of armchair (red point) is 2.1. Use this information to find the absolute depth difference between books (green point) and coffee table (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000458/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 459, + "data_source": "SPAR-Bench", + "question": "The depth of trash can (red point) is 2.3. Using this as a reference, find the depth difference between plant (green point) and keyboard (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000459/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 460, + "data_source": "SPAR-Bench", + "question": "The depth of backpack (red point) is 1.1. Using this reference, what is the absolute depth difference in meters between chair (green point) and backpack (blue point)? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000460/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 461, + "data_source": "SPAR-Bench", + "question": "Using the depth of monitor (red point) as 2.3, determine the absolute difference in depth between monitor (green point) and monitor (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000461/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 462, + "data_source": "SPAR-Bench", + "question": "Using the depth of kitchen cabinets (red point) as 2.0, determine the absolute difference in depth between kitchen apron (green point) and oven (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000462/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 463, + "data_source": "SPAR-Bench", + "question": "Assume the depth of chair (red point) is 2.2. How much deeper or shallower is chair (green point) relative to chair (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000463/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 464, + "data_source": "SPAR-Bench", + "question": "Using the depth of chair (red point) as 1.8, determine the absolute difference in depth between chair (green point) and chair (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000464/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 465, + "data_source": "SPAR-Bench", + "question": "If chair (red point) has a depth of 1.6, calculate the difference in depth between chair (green point) and chair (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000465/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 466, + "data_source": "SPAR-Bench", + "question": "Using the depth of fireplace (red point) as 3.8, determine the absolute difference in depth between table (green point) and windowsill (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000466/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 467, + "data_source": "SPAR-Bench", + "question": "The depth of cup (red point) is 1.3. Using this as a reference, find the depth difference between container (green point) and monitor (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000467/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 468, + "data_source": "SPAR-Bench", + "question": "If chair (red point) has a depth of 1.9, calculate the difference in depth between backpack (green point) and book (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000468/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 469, + "data_source": "SPAR-Bench", + "question": "Assume the depth of curtain (red point) is 1.7. What is the depth difference between window (green point) and pillow (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000469/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 470, + "data_source": "SPAR-Bench", + "question": "Given that projector screen (red point) has a depth of 3.2, calculate the absolute value of the depth difference between chair (green point) and table (blue point). Express the result in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000470/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 471, + "data_source": "SPAR-Bench", + "question": "If bookshelf (red point) has a depth of 2.0, calculate the difference in depth between window (green point) and hat (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000471/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 472, + "data_source": "SPAR-Bench", + "question": "Given that the depth of chair (red point) is 3.7, find the depth difference (absolute value) between chair (green point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000472/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 473, + "data_source": "SPAR-Bench", + "question": "Using the depth of office chair (red point) as 4.3, determine the absolute difference in depth between table (green point) and office chair (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000473/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 474, + "data_source": "SPAR-Bench", + "question": "Using monitor (red point) with a depth of 4.0, compute the absolute depth difference in meters between ball (green point) and mini fridge (blue point). Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000474/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 475, + "data_source": "SPAR-Bench", + "question": "Using box (red point) with a depth of 3.6, compute the absolute depth difference between bench (green point) and whiteboard (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000475/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 476, + "data_source": "SPAR-Bench", + "question": "If mini fridge (red point) is at a depth of 2.4, calculate the absolute depth difference between office chair (green point) and office chair (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000476/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 477, + "data_source": "SPAR-Bench", + "question": "The depth of pillow (red point) is given as 2.2. Calculate how far apart in depth dresser (green point) and clothing (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000477/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 478, + "data_source": "SPAR-Bench", + "question": "The depth of toilet (red point) is 0.9. Use this information to find the absolute depth difference between toilet paper (green point) and trash can (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000478/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 479, + "data_source": "SPAR-Bench", + "question": "The depth of range hood (red point) is 1.2. Use this reference to find the absolute depth difference between box (green point) and microwave (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000479/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 480, + "data_source": "SPAR-Bench", + "question": "With calendar (red point) at a depth of 1.9, calculate the depth difference (in meters) between clothes (green point) and pillow (blue point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000480/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 481, + "data_source": "SPAR-Bench", + "question": "Given that office chair (red point) has a depth of 4.3, calculate the absolute value of the depth difference between office chair (green point) and office chair (blue point). Express the result in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000481/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 482, + "data_source": "SPAR-Bench", + "question": "If the depth of recycling bin (red point) is given as 2.1, how far apart in depth are trash can (green point) and recycling bin (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000482/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 483, + "data_source": "SPAR-Bench", + "question": "Given that the depth of pool table (red point) is 2.6, find the depth difference (absolute value) between chair (green point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000483/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 484, + "data_source": "SPAR-Bench", + "question": "With office chair (red point) at a depth of 1.9, calculate the depth difference (absolute value) between office chair (green point) and office chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000484/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 485, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between cabinet (green point) and curtain (blue point) if the depth of chair (red point) is 2.0? State the result in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000485/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 486, + "data_source": "SPAR-Bench", + "question": "If the depth of book (red point) is 3.6, determine the absolute depth difference between book (green point) and books (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000486/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 487, + "data_source": "SPAR-Bench", + "question": "Assume the depth of sofa chair (red point) is 2.6. How much difference in depth is there between sofa chair (green point) and lamp (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000487/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 488, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of bar (red point) is 1.9, how much difference in depth is there between toilet paper (green point) and toilet (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000488/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 489, + "data_source": "SPAR-Bench", + "question": "If towel (red point) has a depth of 1.5, calculate the difference in depth between bathtub (green point) and mat (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000489/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 490, + "data_source": "SPAR-Bench", + "question": "Assume step stool (red point) has a depth of 2.8. How far apart in depth are cart (green point) and sign (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000490/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 491, + "data_source": "SPAR-Bench", + "question": "Based on chair's (red point) depth of 4.4, compute the relative depth difference between chair (green point) and chair (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000491/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 492, + "data_source": "SPAR-Bench", + "question": "If office chair (red point) is at a depth of 1.2, what is the depth difference between cabinet (green point) and trash can (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000492/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 493, + "data_source": "SPAR-Bench", + "question": "If the depth of table (red point) is 1.9, determine the absolute depth difference between chair (green point) and fireplace (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000493/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 494, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 1.4. Using this reference, what is the absolute depth difference in meters between chair (green point) and chair (blue point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000494/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 495, + "data_source": "SPAR-Bench", + "question": "Based on plant's (red point) depth of 1.7, compute the relative depth difference between toaster oven (green point) and storage bin (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000495/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 496, + "data_source": "SPAR-Bench", + "question": "If picture (red point) is at a depth of 1.9, compute the depth difference between ledge (green point) and picture (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000496/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 497, + "data_source": "SPAR-Bench", + "question": "Given that the depth of shelf (red point) is 1.5, find the depth difference (absolute value) between monitor (green point) and monitor (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000497/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 498, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 2.0. Using this as a reference, find the depth difference between chair (green point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000498/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 499, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of armchair (red point) is 2.1, how much difference in depth is there between books (green point) and books (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000499/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 500, + "data_source": "SPAR-Bench", + "question": "The depth of pillow (red point) is 2.0. Use this reference to find the absolute depth difference between pillow (green point) and lamp (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000500/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 501, + "data_source": "SPAR-Bench", + "question": "With armchair (red point) at a known depth of 4.1, what is the absolute depth difference between armchair (green point) and armchair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000501/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 502, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between books (green point) and bookshelf (blue point) if the depth of jacket (red point) is 2.0? State the result in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000502/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 503, + "data_source": "SPAR-Bench", + "question": "If chair (red point) is at a depth of 1.2, compute the depth difference between mini fridge (green point) and bed (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000503/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 504, + "data_source": "SPAR-Bench", + "question": "If the depth of bag (red point) is known to be 2.6, calculate the depth difference between towel (green point) and cabinet (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000504/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 505, + "data_source": "SPAR-Bench", + "question": "If the depth of copier (red point) is 2.2, determine the absolute depth difference between paper cutter (green point) and chair (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000505/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 506, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between stool (green point) and tv (blue point), given that table (red point) is at a depth of 3.1? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000506/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 507, + "data_source": "SPAR-Bench", + "question": "Assume laundry detergent (red point) has a depth of 2.9. What is the difference in depth between vending machine (green point) and laundry hamper (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000507/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 508, + "data_source": "SPAR-Bench", + "question": "The known depth of couch (red point) is 2.6. Using this as a reference, calculate the absolute depth difference between mini fridge (green point) and file cabinet (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000508/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 509, + "data_source": "SPAR-Bench", + "question": "Using chair (red point) as a reference with a depth of 1.7, determine how far apart in depth chair (green point) and chair (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000509/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 510, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between table (green point) and bathtub (blue point), given that vacuum cleaner (red point) is at a depth of 2.7? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000510/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 511, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is known to be 2.8. Calculate the absolute value of the depth difference in meters between chair (green point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000511/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 512, + "data_source": "SPAR-Bench", + "question": "The depth of keyboard (red point) is 1.6. Use this reference to find the absolute depth difference between chair (green point) and window (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000512/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 513, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is set to 2.1. What is the absolute depth difference in meters between container (green point) and shelf (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000513/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 514, + "data_source": "SPAR-Bench", + "question": "Assume the depth of backpack (red point) is 1.8. How much difference in depth is there between trash can (green point) and divider (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000514/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 515, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of calendar (red point) is 2.1, how much difference in depth is there between pillow (green point) and whiteboard (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000515/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 516, + "data_source": "SPAR-Bench", + "question": "Assume file cabinet (red point) has a depth of 2.1. What is the difference in depth between paper (green point) and chair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000516/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 517, + "data_source": "SPAR-Bench", + "question": "Assume windowsill (red point) has a depth of 2.6. How far apart in depth are monitor (green point) and monitor (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000517/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 518, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between books (green point) and books (blue point), given that books (red point) is at a depth of 1.5? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000518/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 519, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between chair (green point) and chair (blue point) if the depth of chair (red point) is 4.3? State the result in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000519/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 520, + "data_source": "SPAR-Bench", + "question": "The known depth of chair (red point) is 3.0. What is the absolute depth difference between the objects table (green point) and chair (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000520/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 521, + "data_source": "SPAR-Bench", + "question": "With ledge's (red point) depth at 1.6, calculate the depth difference between picture (green point) and picture (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000521/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 522, + "data_source": "SPAR-Bench", + "question": "Given that bathroom vanity (red point) has a depth of 1.7, determine the absolute depth difference between cabinet (green point) and picture (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000522/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 523, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is known to be 3.1. Calculate the absolute value of the depth difference in meters between bookshelf (green point) and table (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000523/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 524, + "data_source": "SPAR-Bench", + "question": "Using table (red point) with a depth of 2.6, compute the absolute depth difference in meters between trash can (green point) and recycling bin (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000524/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 525, + "data_source": "SPAR-Bench", + "question": "If office chair (red point) has a depth of 2.4, calculate the difference in depth between office chair (green point) and drawer (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000525/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 526, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is 2.5, calculate the absolute depth difference in meters between desk (green point) and bottle (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000526/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 527, + "data_source": "SPAR-Bench", + "question": "Using whiteboard (red point) as a reference with a depth of 2.1, determine how far apart in depth trash can (green point) and paper towel dispenser (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000527/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 528, + "data_source": "SPAR-Bench", + "question": "The depth of rail (red point) is 2.5. Use this reference to find the absolute depth difference between toilet (green point) and rail (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000528/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 529, + "data_source": "SPAR-Bench", + "question": "Using chair (red point) with a known depth of 3.6, calculate the absolute value of the depth difference between coffee table (green point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000529/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 530, + "data_source": "SPAR-Bench", + "question": "If pillow (red point) has a depth of 3.4, calculate the difference in depth between backpack (green point) and bed (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000530/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 531, + "data_source": "SPAR-Bench", + "question": "The depth of keyboard (red point) is 1.4. Determine the absolute depth difference between office chair (green point) and monitor (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000531/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 532, + "data_source": "SPAR-Bench", + "question": "The depth of sofa chair (red point) is given as 1.5. Find the absolute depth difference in meters between sofa chair (green point) and picture (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000532/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 533, + "data_source": "SPAR-Bench", + "question": "With shoes (red point) at a known depth of 3.3, what is the absolute depth difference between curtain (green point) and towel (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000533/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 534, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is 2.8, determine the absolute depth difference between chair (green point) and chair (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000534/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 535, + "data_source": "SPAR-Bench", + "question": "The depth of plant (red point) is 1.1. Using this as a reference, find the depth difference between window (green point) and office chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000535/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 536, + "data_source": "SPAR-Bench", + "question": "The known depth of chair (red point) is 1.8. Calculate how much difference in depth there is between chair (green point) and chair (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000536/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 537, + "data_source": "SPAR-Bench", + "question": "With trash can's (red point) depth at 2.4, calculate the depth difference between monitor (green point) and chair (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000537/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 538, + "data_source": "SPAR-Bench", + "question": "Using stool (red point) with a depth of 1.8, compute the absolute depth difference in meters between refrigerator (green point) and tupperware (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000538/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 539, + "data_source": "SPAR-Bench", + "question": "Assume the depth of decoration (red point) is 1.7. How much difference in depth is there between picture (green point) and pillow (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000539/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 540, + "data_source": "SPAR-Bench", + "question": "Using cabinet (red point) with a depth of 2.3, compute the absolute depth difference between trash can (green point) and clock (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000540/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 541, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between chair (green point) and chair (blue point), given that chair (red point) is at a depth of 1.0? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000541/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 542, + "data_source": "SPAR-Bench", + "question": "If backpack (red point) is at a depth of 1.9, compute the absolute depth difference between cabinet (green point) and shoes (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000542/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 543, + "data_source": "SPAR-Bench", + "question": "Assume the depth of chair (red point) is 2.6. How much deeper or shallower is chair (green point) relative to monitor (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000543/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 544, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of chair (red point) is 1.7, how much difference in depth is there between chair (green point) and chair (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000544/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 545, + "data_source": "SPAR-Bench", + "question": "Using monitor (red point) with a depth of 1.4, compute the absolute depth difference in meters between telephone (green point) and office chair (blue point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000545/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 546, + "data_source": "SPAR-Bench", + "question": "Assume the depth of tissue box (red point) is 1.6. What is the depth difference between pillow (green point) and storage bin (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000546/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 547, + "data_source": "SPAR-Bench", + "question": "The known depth of monitor (red point) is 1.4. What is the absolute depth difference between the objects chair (green point) and monitor (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000547/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 548, + "data_source": "SPAR-Bench", + "question": "Given that the depth of book (red point) is 2.0, find the depth difference (absolute value) between book (green point) and book (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000548/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 549, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between office chair (green point) and tube (blue point), given that office chair (red point) is at a depth of 1.5? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000549/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 550, + "data_source": "SPAR-Bench", + "question": "The depth of carton (red point) is 1.0. How far apart in depth are soda stream (green point) and paper towel roll (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000550/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 551, + "data_source": "SPAR-Bench", + "question": "If the depth of sink (red point) is 0.6, determine the absolute depth difference between toothpaste (green point) and cabinet (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000551/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 552, + "data_source": "SPAR-Bench", + "question": "Assume the depth of table (red point) is 1.0. How much difference in depth is there between office chair (green point) and whiteboard (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000552/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 553, + "data_source": "SPAR-Bench", + "question": "The known depth of platform trolley (red point) is 5.1. Using this as a reference, calculate the absolute depth difference between keyboard (green point) and table (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000553/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 554, + "data_source": "SPAR-Bench", + "question": "Using the depth of pens (red point) as 1.4, determine the absolute difference in depth between box (green point) and monitor (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000554/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 555, + "data_source": "SPAR-Bench", + "question": "Given that cabinet (red point) has a depth of 1.4, determine the absolute depth difference between sink (green point) and toothpaste (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000555/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 556, + "data_source": "SPAR-Bench", + "question": "With bucket (red point) at a depth of 1.6, calculate the depth difference (in meters) between power socket (green point) and keyboard (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000556/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 557, + "data_source": "SPAR-Bench", + "question": "The depth of first aid cabinet (red point) is 1.6. How far apart in depth are electrical pipe (green point) and cabinet (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000557/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 558, + "data_source": "SPAR-Bench", + "question": "If chair (red point) has a depth of 3.1, calculate the difference in depth between light switch (green point) and power socket (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000558/000.jpg" + ], + "data_type": "single_view", + "answer": "4.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 559, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between tv (green point) and sofa (blue point), given that chair (red point) is at a depth of 1.1? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000559/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 560, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of window (red point) is 3.7, how much difference in depth is there between heater (green point) and cabinet (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000560/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 561, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is known to be 1.2. Calculate the absolute value of the depth difference in meters between chair (green point) and heater (blue point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000561/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 562, + "data_source": "SPAR-Bench", + "question": "The depth of drying rack (red point) is 1.1. Determine the absolute depth difference between window (green point) and basket (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000562/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 563, + "data_source": "SPAR-Bench", + "question": "With cabinet (red point) at a depth of 4.2, calculate the depth difference (in meters) between windowframe (green point) and window (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000563/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 564, + "data_source": "SPAR-Bench", + "question": "The depth of heater (red point) is known to be 3.6. Calculate the absolute value of the depth difference in meters between chair (green point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000564/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 565, + "data_source": "SPAR-Bench", + "question": "With piano chair's (red point) depth at 4.4, calculate the depth difference between bed (green point) and books (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000565/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 566, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between kitchen cabinet (green point) and trash bin (blue point), given that reflection (red point) is at a depth of 2.6? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000566/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 567, + "data_source": "SPAR-Bench", + "question": "The known depth of jar (red point) is 1.3. Using this as a reference, calculate the absolute depth difference between picture (green point) and SPLIT (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000567/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 568, + "data_source": "SPAR-Bench", + "question": "With curtain rod's (red point) depth at 3.5, calculate the depth difference between wardrobe (green point) and tv stand (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000568/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 569, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of beanbag (red point) is 1.0, how much difference in depth is there between chair (green point) and light switch (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000569/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 570, + "data_source": "SPAR-Bench", + "question": "If sink (red point) is at a depth of 1.0, calculate the absolute depth difference between oven (green point) and cooking pot (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000570/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 571, + "data_source": "SPAR-Bench", + "question": "Assume monitor (red point) has a depth of 1.3. How much difference in depth exists between monitor (green point) and window (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000571/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 572, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between coat hanger (green point) and plate (blue point) if the depth of whiteboard (red point) is 2.4? State the result in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000572/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 573, + "data_source": "SPAR-Bench", + "question": "If the depth of light switch (red point) is set at 1.8, how far apart in depth are objects bedside counter (green point) and bedside lamp (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000573/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 574, + "data_source": "SPAR-Bench", + "question": "Using decoration (red point) as a reference with a depth of 1.4, determine how far apart in depth power socket (green point) and chair (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000574/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 575, + "data_source": "SPAR-Bench", + "question": "The depth of machine (red point) is 1.3. Use this reference to find the absolute depth difference between cabinet (green point) and window (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000575/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 576, + "data_source": "SPAR-Bench", + "question": "The depth of water pipe (red point) is 2.0. How far apart in depth are cabinet (green point) and first aid cabinet (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000576/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 577, + "data_source": "SPAR-Bench", + "question": "Assume the depth of bottle (red point) is 1.4. How much deeper or shallower is monitor (green point) relative to trash can (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000577/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 578, + "data_source": "SPAR-Bench", + "question": "If kitchen cabinet (red point) has a depth of 2.6, calculate the difference in depth between bar stool (green point) and bag (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000578/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 579, + "data_source": "SPAR-Bench", + "question": "The depth of bottle (red point) is set to 2.0. What is the absolute depth difference in meters between towel (green point) and shower curtain (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000579/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 580, + "data_source": "SPAR-Bench", + "question": "If the depth of bathroom cabinet (red point) is set at 1.3, how far apart in depth are objects bathroom cabinet (green point) and bottle (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000580/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 581, + "data_source": "SPAR-Bench", + "question": "The depth of table (red point) is known to be 1.9. Calculate the absolute value of the depth difference in meters between office chair (green point) and window (blue point). Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000581/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 582, + "data_source": "SPAR-Bench", + "question": "Using toilet cleaner (red point) with a known depth of 1.6, calculate the absolute value of the depth difference between toilet paper holder (green point) and SPLIT (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000582/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 583, + "data_source": "SPAR-Bench", + "question": "The known depth of cabinet (red point) is 1.4. Calculate how much difference in depth there is between keyboard (green point) and chair (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000583/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 584, + "data_source": "SPAR-Bench", + "question": "If the depth of picture (red point) is 2.3, determine the absolute depth difference between pipe (green point) and machine (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000584/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 585, + "data_source": "SPAR-Bench", + "question": "If the depth of light switch (red point) is set at 2.6, how far apart in depth are objects power socket (green point) and speaker (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000585/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 586, + "data_source": "SPAR-Bench", + "question": "The depth of flat panel display (red point) is 2.1. Determine the absolute depth difference between power socket (green point) and switch (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000586/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 587, + "data_source": "SPAR-Bench", + "question": "The depth of storage cabinet (red point) is given as 2.1. Calculate how far apart in depth chair (green point) and poster (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000587/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 588, + "data_source": "SPAR-Bench", + "question": "The depth of SPLIT (red point) is known to be 6.6. Calculate the absolute value of the depth difference in meters between box (green point) and sofa (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000588/000.jpg" + ], + "data_type": "single_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 589, + "data_source": "SPAR-Bench", + "question": "The depth of paper (red point) is given as 2.5. Calculate how far apart in depth mug (green point) and paper (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000589/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 590, + "data_source": "SPAR-Bench", + "question": "The known depth of outlet (red point) is 3.3. What is the absolute depth difference between the objects storage ecabinet (green point) and storage cabinet (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000590/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 591, + "data_source": "SPAR-Bench", + "question": "If the depth of kitchen cabinet (red point) is given as 0.6, how far apart in depth are socket (green point) and sink (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000591/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 592, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 1.0. Using this reference, what is the absolute depth difference in meters between paper (green point) and computer tower (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000592/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 593, + "data_source": "SPAR-Bench", + "question": "Assume kitchen cabinet (red point) has a depth of 2.0. What is the difference in depth between kitchen object (green point) and kitchen cabinet (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000593/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 594, + "data_source": "SPAR-Bench", + "question": "The depth of computer tower (red point) is 1.7. Using this as a reference, find the depth difference between computer tower (green point) and computer tower (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000594/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 595, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between speaker (green point) and power socket (blue point), given that chair (red point) is at a depth of 1.8? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000595/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 596, + "data_source": "SPAR-Bench", + "question": "Using monitor (red point) as a reference with a depth of 3.1, determine how far apart in depth picture (green point) and picture (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000596/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 597, + "data_source": "SPAR-Bench", + "question": "Using the depth of power socket (red point) as 4.6, determine the absolute difference in depth between power brick (green point) and book (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000597/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 598, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of laboratory equipment (red point) is 2.0, how much difference in depth is there between office chair (green point) and desk lamp (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000598/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 599, + "data_source": "SPAR-Bench", + "question": "Using the depth of shoes (red point) as 2.2, determine the absolute difference in depth between clothes (green point) and trash bin (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000599/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 600, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between bathroom cabinet (green point) and bottle (blue point), given that shower curtain (red point) is at a depth of 2.1? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000600/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 601, + "data_source": "SPAR-Bench", + "question": "With bench's (red point) depth at 3.7, calculate the depth difference between beanbag (green point) and chair (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000601/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 602, + "data_source": "SPAR-Bench", + "question": "Assume the depth of paper (red point) is 1.9. How much deeper or shallower is paper (green point) relative to package (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000602/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 603, + "data_source": "SPAR-Bench", + "question": "Using backpack (red point) with a depth of 1.8, compute the absolute depth difference between kitchen cabinet (green point) and picture (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000603/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 604, + "data_source": "SPAR-Bench", + "question": "If the depth of office chair (red point) is given as 3.1, how far apart in depth are cup (green point) and office chair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000604/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 605, + "data_source": "SPAR-Bench", + "question": "The depth of shoes (red point) is known to be 1.3. Calculate the absolute value of the depth difference in meters between clothes (green point) and light switch (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000605/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 606, + "data_source": "SPAR-Bench", + "question": "If monitor (red point) is at a depth of 1.1, compute the absolute depth difference between cup (green point) and cabinet (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000606/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 607, + "data_source": "SPAR-Bench", + "question": "If window frame (red point) is at a depth of 0.9, compute the depth difference between heater (green point) and light switch (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000607/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 608, + "data_source": "SPAR-Bench", + "question": "If the depth of bedframe (red point) is 2.0, calculate the absolute depth difference in meters between monitor (green point) and picture (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000608/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 609, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between chair (green point) and whiteboard (blue point) if the depth of chair (red point) is 2.6? State the result in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000609/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 610, + "data_source": "SPAR-Bench", + "question": "With box (red point) at a depth of 2.2, calculate the depth difference (absolute value) between microwave (green point) and book (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000610/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 611, + "data_source": "SPAR-Bench", + "question": "With toilet paper dispenser (red point) at a depth of 1.1, calculate the depth difference (absolute value) between flush button (green point) and toilet (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000611/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 612, + "data_source": "SPAR-Bench", + "question": "If the depth of power socket (red point) is set at 1.9, how far apart in depth are objects light switch (green point) and microwave (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000612/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 613, + "data_source": "SPAR-Bench", + "question": "The depth of kitchen cabinet (red point) is 0.8. Use this reference to find the absolute depth difference between picture (green point) and structure (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000613/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 614, + "data_source": "SPAR-Bench", + "question": "The depth of cushion (red point) is 3.0. Use this information to find the absolute depth difference between table (green point) and table (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000614/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 615, + "data_source": "SPAR-Bench", + "question": "With bottle (red point) at a known depth of 1.3, what is the absolute depth difference between toilet cleaner (green point) and toilet paper holder (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000615/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 616, + "data_source": "SPAR-Bench", + "question": "The known depth of telephone (red point) is 3.0. Using this as a reference, calculate the absolute depth difference between keyboard (green point) and monitor (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000616/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 617, + "data_source": "SPAR-Bench", + "question": "With computer tower (red point) at a depth of 1.1, calculate the depth difference (in meters) between computer tower (green point) and computer tower (blue point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000617/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 618, + "data_source": "SPAR-Bench", + "question": "Given that computer tower (red point) has a depth of 1.1, determine the absolute depth difference between electrical duct (green point) and computer tower (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000618/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 619, + "data_source": "SPAR-Bench", + "question": "With picture's (red point) depth at 1.8, calculate the depth difference between headphone holder (green point) and monitor (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000619/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 620, + "data_source": "SPAR-Bench", + "question": "The depth of cabinet (red point) is 1.7. Determine the absolute depth difference between trash bin (green point) and cabinet (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000620/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 621, + "data_source": "SPAR-Bench", + "question": "Using the depth of computer tower (red point) as 1.5, determine the absolute difference in depth between mug (green point) and telephone (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000621/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 622, + "data_source": "SPAR-Bench", + "question": "The known depth of chair (red point) is 4.9. Calculate the absolute difference in depth (in meters) between split (green point) and split (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000622/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 623, + "data_source": "SPAR-Bench", + "question": "With paper (red point) at a depth of 2.9, calculate the depth difference (in meters) between paper (green point) and paper (blue point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000623/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 624, + "data_source": "SPAR-Bench", + "question": "Based on table's (red point) depth of 2.9, compute the relative depth difference between window (green point) and arm chair (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000624/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 625, + "data_source": "SPAR-Bench", + "question": "If the depth of jacket (red point) is known to be 3.7, calculate the depth difference between heater (green point) and bed (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000625/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 626, + "data_source": "SPAR-Bench", + "question": "Given that power plug (red point) is at a depth of 3.8, calculate the absolute depth difference between picture (green point) and pipe (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000626/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 627, + "data_source": "SPAR-Bench", + "question": "Given that cushion (red point) has a depth of 3.2, determine the absolute depth difference between table (green point) and table (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000627/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 628, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is given as 3.8. Find the absolute depth difference in meters between mouse (green point) and heater (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000628/000.jpg" + ], + "data_type": "single_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 629, + "data_source": "SPAR-Bench", + "question": "Using the depth of utensils (red point) as 2.6, find the absolute difference in depth between kitchen cabinet (green point) and cup (blue point). State the result in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000629/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 630, + "data_source": "SPAR-Bench", + "question": "With bag's (red point) depth at 0.9, calculate the depth difference between bathtub (green point) and toilet paper (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000630/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 631, + "data_source": "SPAR-Bench", + "question": "If the depth of speaker (red point) is 7.0, determine the absolute depth difference between light switch (green point) and table (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000631/000.jpg" + ], + "data_type": "single_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 632, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of window (red point) is 2.5, how much difference in depth is there between mouse (green point) and chair (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000632/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 633, + "data_source": "SPAR-Bench", + "question": "Given that the depth of kitchen cabinet (red point) is 1.2, find the depth difference (absolute value) between serving trolley (green point) and window frame (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000633/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 634, + "data_source": "SPAR-Bench", + "question": "Assume jacket (red point) has a depth of 2.2. What is the difference in depth between power socket (green point) and decoration (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000634/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 635, + "data_source": "SPAR-Bench", + "question": "If the depth of pillow (red point) is known to be 2.1, calculate the depth difference between chair (green point) and sofa (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000635/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 636, + "data_source": "SPAR-Bench", + "question": "Using the depth of table (red point) as 2.3, find the absolute difference in depth between book (green point) and book (blue point). State the result in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000636/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 637, + "data_source": "SPAR-Bench", + "question": "If chair (red point) is at a depth of 1.3, compute the depth difference between box (green point) and chair (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000637/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 638, + "data_source": "SPAR-Bench", + "question": "If the depth of box (red point) is set at 2.1, how far apart in depth are objects box (green point) and calendar (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000638/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 639, + "data_source": "SPAR-Bench", + "question": "With cardboard box (red point) at a depth of 0.9, calculate the depth difference (absolute value) between cardboard box (green point) and cardboard box (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000639/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 640, + "data_source": "SPAR-Bench", + "question": "Assume chair (red point) has a depth of 1.8. How much difference in depth exists between chair (green point) and table (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000640/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 641, + "data_source": "SPAR-Bench", + "question": "Given that power strip (red point) has a depth of 1.3, calculate the absolute value of the depth difference between cable raceway (green point) and printer (blue point). Express the result in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000641/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 642, + "data_source": "SPAR-Bench", + "question": "The known depth of chair (red point) is 1.4. Calculate how much difference in depth there is between plates (green point) and storage cabinet (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000642/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 643, + "data_source": "SPAR-Bench", + "question": "The depth of heater (red point) is 4.0. Using this as a reference, find the depth difference between chair (green point) and bag (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000643/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 644, + "data_source": "SPAR-Bench", + "question": "Assume the depth of bottle (red point) is 1.7. How much difference in depth is there between trash can (green point) and paper bag (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000644/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 645, + "data_source": "SPAR-Bench", + "question": "The depth of box (red point) is 2.1. Using this as a reference, find the depth difference between chair (green point) and split (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000645/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 646, + "data_source": "SPAR-Bench", + "question": "The depth of box (red point) is 4.6. Using this reference, what is the absolute depth difference in meters between bookshelf (green point) and picture (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000646/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 647, + "data_source": "SPAR-Bench", + "question": "Given that the depth of paper (red point) is 2.3, find the depth difference (absolute value) between keyboard (green point) and monitor (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000647/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 648, + "data_source": "SPAR-Bench", + "question": "The depth of bottle (red point) is known to be 1.2. Calculate the absolute value of the depth difference in meters between laptop (green point) and office chair (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000648/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 649, + "data_source": "SPAR-Bench", + "question": "The depth of wooden pallet (red point) is given as 3.0. Calculate how far apart in depth whiteboard (green point) and pillar (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000649/000.jpg" + ], + "data_type": "single_view", + "answer": "4.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 650, + "data_source": "SPAR-Bench", + "question": "The depth of monitor (red point) is known to be 1.2. Calculate the absolute value of the depth difference in meters between notebook (green point) and mouse (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000650/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 651, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is 2.9, determine the absolute depth difference between heater (green point) and chair (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000651/000.jpg" + ], + "data_type": "single_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 652, + "data_source": "SPAR-Bench", + "question": "The depth of cabinet (red point) is set to 2.3. What is the absolute depth difference in meters between chair (green point) and book (blue point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000652/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 653, + "data_source": "SPAR-Bench", + "question": "With structure's (red point) depth at 1.7, calculate the depth difference between laboratory equipment (green point) and pipe (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000653/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 654, + "data_source": "SPAR-Bench", + "question": "Using structure (red point) with a depth of 1.4, compute the absolute depth difference in meters between reflection (green point) and picture (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000654/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 655, + "data_source": "SPAR-Bench", + "question": "The known depth of book (red point) is 1.6. Calculate how much difference in depth there is between books (green point) and book (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000655/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 656, + "data_source": "SPAR-Bench", + "question": "With window's (red point) depth at 2.0, calculate the depth difference between table (green point) and table (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000656/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 657, + "data_source": "SPAR-Bench", + "question": "If the depth of power socket (red point) is 1.7, determine the absolute depth difference between monitor (green point) and office chair (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000657/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 658, + "data_source": "SPAR-Bench", + "question": "Assume bowl (red point) has a depth of 6.0. How far apart in depth are roof (green point) and oven (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000658/000.jpg" + ], + "data_type": "single_view", + "answer": "5.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 659, + "data_source": "SPAR-Bench", + "question": "The depth of cosmetic bag (red point) is given as 3.7. Find the absolute depth difference in meters between sofa (green point) and curtain (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000659/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 660, + "data_source": "SPAR-Bench", + "question": "The depth of shelf (red point) is given as 1.8. Calculate how far apart in depth first aid box (green point) and window (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000660/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 661, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between counter (green point) and trash bin (blue point), given that tv remote (red point) is at a depth of 0.9? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000661/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 662, + "data_source": "SPAR-Bench", + "question": "With book (red point) at a known depth of 1.6, what is the absolute depth difference between bookshelf (green point) and book (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000662/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 663, + "data_source": "SPAR-Bench", + "question": "Given that bathroom cabinet (red point) is at a depth of 0.9, calculate the absolute depth difference between bathroom cabinet (green point) and shower curtain (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000663/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 664, + "data_source": "SPAR-Bench", + "question": "If the depth of sink (red point) is known to be 0.6, calculate the depth difference between toilet (green point) and towel (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000664/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 665, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is set to 4.8. What is the absolute depth difference in meters between power socket (green point) and table (blue point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000665/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 666, + "data_source": "SPAR-Bench", + "question": "Using the depth of window (red point) as 2.0, determine the absolute difference in depth between rolling chair (green point) and bookshelf (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000666/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 667, + "data_source": "SPAR-Bench", + "question": "If the depth of machine (red point) is 1.4, calculate the absolute depth difference in meters between trash bin (green point) and shelf (blue point). Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000667/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 668, + "data_source": "SPAR-Bench", + "question": "If the depth of scissors (red point) is set at 1.6, how far apart in depth are objects book (green point) and bottle (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000668/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 669, + "data_source": "SPAR-Bench", + "question": "Assume the depth of cutting board (red point) is 2.8. How much difference in depth is there between kitchen counter (green point) and kitchen cabinet (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000669/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 670, + "data_source": "SPAR-Bench", + "question": "The known depth of towel (red point) is 1.5. Using this as a reference, calculate the absolute depth difference between serving trolley (green point) and trash can (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000670/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 671, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is 1.8, determine the absolute depth difference between books (green point) and chair (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000671/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 672, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between monitor (green point) and chair (blue point), given that bookshelf (red point) is at a depth of 1.1? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000672/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 673, + "data_source": "SPAR-Bench", + "question": "Using board (red point) with a known depth of 3.0, calculate the absolute value of the depth difference between light switch (green point) and interactive whiteboard (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000673/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 674, + "data_source": "SPAR-Bench", + "question": "The depth of office chair (red point) is 1.1. How far apart in depth are table (green point) and office chair (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000674/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 675, + "data_source": "SPAR-Bench", + "question": "If the depth of paper (red point) is 1.9, determine the absolute depth difference between coffee maker (green point) and espresso machine (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000675/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 676, + "data_source": "SPAR-Bench", + "question": "The depth of cabinet (red point) is set to 3.7. What is the absolute depth difference in meters between water pipe (green point) and electrical duct (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000676/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 677, + "data_source": "SPAR-Bench", + "question": "The depth of cup (red point) is 1.0. Using this reference, what is the absolute depth difference in meters between paper (green point) and utensils (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000677/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 678, + "data_source": "SPAR-Bench", + "question": "With roof (red point) at a depth of 0.9, calculate the depth difference (absolute value) between cabinet (green point) and window (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000678/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 679, + "data_source": "SPAR-Bench", + "question": "Using curtain (red point) as a reference with a depth of 1.8, determine how far apart in depth laptop (green point) and office chair (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000679/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 680, + "data_source": "SPAR-Bench", + "question": "Assume the depth of table (red point) is 4.8. What is the depth difference between mouse (green point) and table (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000680/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 681, + "data_source": "SPAR-Bench", + "question": "If whiteboard eraser (red point) is at a depth of 1.3, what is the depth difference between box (green point) and window (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000681/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 682, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between window frame (green point) and computer tower (blue point), given that computer tower (red point) is at a depth of 3.3? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000682/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 683, + "data_source": "SPAR-Bench", + "question": "Given that coax outlet (red point) has a depth of 0.9, determine the absolute depth difference between coax outlet (green point) and coax socket (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000683/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 684, + "data_source": "SPAR-Bench", + "question": "If chair (red point) is at a depth of 1.6, calculate the absolute depth difference between chair (green point) and book (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000684/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 685, + "data_source": "SPAR-Bench", + "question": "Assume the depth of chair (red point) is 3.8. How much difference in depth is there between chair (green point) and overhead projector (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000685/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 686, + "data_source": "SPAR-Bench", + "question": "The depth of cabinet (red point) is 3.7. Using this reference, what is the absolute depth difference in meters between faucet (green point) and electrical duct (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000686/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 687, + "data_source": "SPAR-Bench", + "question": "The depth of book (red point) is given as 1.6. Find the absolute depth difference in meters between chair (green point) and box (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000687/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 688, + "data_source": "SPAR-Bench", + "question": "Assume trash bin (red point) has a depth of 4.0. How far apart in depth are tv (green point) and whiteboard (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000688/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 689, + "data_source": "SPAR-Bench", + "question": "Assume the depth of chair (red point) is 1.2. What is the depth difference between crate (green point) and storage cabinet (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000689/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 690, + "data_source": "SPAR-Bench", + "question": "The depth of cabinet (red point) is set to 3.9. What is the absolute depth difference in meters between stools (green point) and beanbag (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000690/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 691, + "data_source": "SPAR-Bench", + "question": "If printer (red point) is at a depth of 3.4, compute the absolute depth difference between box (green point) and shelf (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000691/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 692, + "data_source": "SPAR-Bench", + "question": "Given that the depth of sink (red point) is 0.6, find the depth difference (absolute value) between toilet brush (green point) and towel (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000692/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 693, + "data_source": "SPAR-Bench", + "question": "If the depth of window (red point) is 6.8, determine the absolute depth difference between dish drainer (green point) and coffee maker (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000693/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 694, + "data_source": "SPAR-Bench", + "question": "The depth of book (red point) is 1.6. Using this as a reference, find the depth difference between book (green point) and blinds (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000694/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 695, + "data_source": "SPAR-Bench", + "question": "With chair (red point) at a depth of 3.7, calculate the depth difference (absolute value) between window frame (green point) and heater (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000695/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 696, + "data_source": "SPAR-Bench", + "question": "Using bottle (red point) with a depth of 1.7, compute the absolute depth difference between calculator (green point) and cabinet (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000696/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 697, + "data_source": "SPAR-Bench", + "question": "The depth of knife (red point) is 2.8. Use this reference to find the absolute depth difference between cabinet (green point) and sink (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000697/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 698, + "data_source": "SPAR-Bench", + "question": "With pillow (red point) at a known depth of 1.3, what is the absolute depth difference between decoration (green point) and foldable closet (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000698/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 699, + "data_source": "SPAR-Bench", + "question": "Assume the depth of chair (red point) is 5.8. How much deeper or shallower is bench (green point) relative to beanbag (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000699/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 700, + "data_source": "SPAR-Bench", + "question": "If microwave (red point) is at a depth of 0.6, calculate the absolute depth difference between copy machine (green point) and whiteboard (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000700/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 701, + "data_source": "SPAR-Bench", + "question": "Using toilet (red point) as a reference with a depth of 1.2, determine how far apart in depth shower curtain (green point) and bathroom cabinet (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000701/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 702, + "data_source": "SPAR-Bench", + "question": "The depth of cabinet (red point) is known to be 4.4. Calculate the absolute value of the depth difference in meters between trash can (green point) and laboratory bench (blue point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000702/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 703, + "data_source": "SPAR-Bench", + "question": "If whiteboard (red point) is at a depth of 1.3, compute the absolute depth difference between split (green point) and copy machine (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000703/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 704, + "data_source": "SPAR-Bench", + "question": "Based on sofa's (red point) depth of 3.4, compute the relative depth difference between light switch (green point) and chair (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000704/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 705, + "data_source": "SPAR-Bench", + "question": "If chair (red point) has a depth of 4.4, calculate the difference in depth between sofa (green point) and chair (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000705/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 706, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between picture (green point) and power socket (blue point), given that machine (red point) is at a depth of 2.3? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000706/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 707, + "data_source": "SPAR-Bench", + "question": "If table (red point) is at a depth of 2.0, compute the depth difference between light switch (green point) and chair (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000707/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 708, + "data_source": "SPAR-Bench", + "question": "If cabinet (red point) is at a depth of 1.9, compute the absolute depth difference between cabinet (green point) and plant (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000708/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 709, + "data_source": "SPAR-Bench", + "question": "The depth of cabinet (red point) is known to be 2.0. Calculate the absolute value of the depth difference in meters between windowsill (green point) and cabinet (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000709/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 710, + "data_source": "SPAR-Bench", + "question": "Given that split (red point) is at a depth of 0.9, calculate the absolute depth difference between shower gel (green point) and shower gel (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000710/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 711, + "data_source": "SPAR-Bench", + "question": "The depth of table (red point) is set to 3.8. What is the absolute depth difference in meters between power socket (green point) and table (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000711/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 712, + "data_source": "SPAR-Bench", + "question": "Based on surface cleaning liquid's (red point) depth of 0.8, compute the relative depth difference between towel (green point) and towel (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000712/000.jpg" + ], + "data_type": "single_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 713, + "data_source": "SPAR-Bench", + "question": "The known depth of office chair (red point) is 1.4. Calculate how much difference in depth there is between power socket (green point) and cup (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000713/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 714, + "data_source": "SPAR-Bench", + "question": "The known depth of whiteboard (red point) is 1.9. Using this as a reference, calculate the absolute depth difference between electric box (green point) and copy machine (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000714/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 715, + "data_source": "SPAR-Bench", + "question": "Based on chair's (red point) depth of 2.7, compute the relative depth difference between chair (green point) and chair (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000715/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 716, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between coax outlet (green point) and power sockets (blue point) if the depth of power strip (red point) is 1.9? State the result in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000716/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 717, + "data_source": "SPAR-Bench", + "question": "The known depth of coax outlet (red point) is 1.2. Calculate the absolute difference in depth (in meters) between printer (green point) and power strip (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000717/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 718, + "data_source": "SPAR-Bench", + "question": "The depth of cup (red point) is 2.2. Using this reference, what is the absolute depth difference in meters between chair (green point) and picture (blue point)? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000718/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 719, + "data_source": "SPAR-Bench", + "question": "If the depth of cabinet (red point) is known to be 2.1, calculate the depth difference between monitor (green point) and folder (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000719/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 720, + "data_source": "SPAR-Bench", + "question": "Assume book (red point) has a depth of 2.0. How much difference in depth exists between blinds (green point) and powerstrip (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000720/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 721, + "data_source": "SPAR-Bench", + "question": "Using storage cabinet (red point) with a depth of 3.2, compute the absolute depth difference in meters between paper (green point) and keyboard (blue point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000721/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 722, + "data_source": "SPAR-Bench", + "question": "If the depth of table (red point) is set at 2.4, how far apart in depth are objects light switch (green point) and power socket (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000722/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 723, + "data_source": "SPAR-Bench", + "question": "Given that the depth of structure (red point) is 2.6, find the depth difference (absolute value) between heater (green point) and picture (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000723/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 724, + "data_source": "SPAR-Bench", + "question": "Assume table (red point) has a depth of 4.1. How much difference in depth exists between sofa (green point) and window frame (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000724/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 725, + "data_source": "SPAR-Bench", + "question": "Assume the depth of power socket (red point) is 3.1. How much difference in depth is there between laboratory bench (green point) and cabinet (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000725/000.jpg" + ], + "data_type": "single_view", + "answer": "3.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 726, + "data_source": "SPAR-Bench", + "question": "If the depth of power socket (red point) is known to be 1.9, calculate the depth difference between office chair (green point) and copier (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000726/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 727, + "data_source": "SPAR-Bench", + "question": "The depth of shelf (red point) is given as 0.9. Calculate how far apart in depth broom (green point) and backpack (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000727/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 728, + "data_source": "SPAR-Bench", + "question": "The known depth of power socket (red point) is 3.7. Calculate the absolute difference in depth (in meters) between table (green point) and electrical duct (blue point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000728/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 729, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of box (red point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000729/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 730, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of table (red point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000730/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 731, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the red point at the center of picture from the observer in this image? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000731/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 732, + "data_source": "SPAR-Bench", + "question": "How far is the center of sink (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000732/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 733, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of stove (red point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000733/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 734, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of cutting board? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000734/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 735, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of office chair. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000735/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 736, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of pillow (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000736/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 737, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters from the observer\u2019s location to the red point at the center of box (red point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000737/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 738, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of chair (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000738/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 739, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of table (red point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000739/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 740, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000740/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 741, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of table in the image? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000741/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 742, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters between chair (red point) and the observer. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000742/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 743, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of cabinet (red point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000743/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 744, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of office chair (red point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000744/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 745, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of table (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000745/000.jpg" + ], + "data_type": "single_view", + "answer": "5.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 746, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of iron (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000746/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 747, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-curtain distance in meters, considering the center of curtain (red point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000747/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 748, + "data_source": "SPAR-Bench", + "question": "How far is the center of chair (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000748/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 749, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of backpack (red point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000749/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 750, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of window? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000750/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 751, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of trash can in the image? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000751/000.jpg" + ], + "data_type": "single_view", + "answer": "6.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 752, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of armchair (red point)? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000752/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 753, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of chair? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000753/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 754, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters from the observer to the center of mirror (red point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000754/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 755, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of cup (red point)? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000755/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 756, + "data_source": "SPAR-Bench", + "question": "Determine the Euclidean distance in meters between the center of stove (red point) and the observer in the image. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000756/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 757, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of couch (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000757/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 758, + "data_source": "SPAR-Bench", + "question": "How far is the center of tray (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000758/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 759, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000759/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 760, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of backpack (red point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000760/000.jpg" + ], + "data_type": "single_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 761, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of chair. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000761/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 762, + "data_source": "SPAR-Bench", + "question": "What is the approximate distance in meters from the observer to the center of end table (red point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000762/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 763, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the red point at the center of chair from the observer in this image? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000763/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 764, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of table (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000764/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 765, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters from the observer to chair (red point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000765/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 766, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of crate (red point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000766/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 767, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of towel (red point) in the photo? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000767/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 768, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of mattress in the image? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000768/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 769, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of stove (red point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000769/000.jpg" + ], + "data_type": "single_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 770, + "data_source": "SPAR-Bench", + "question": "What is the calculated distance in meters from the observer to the center of case of water bottles (red point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000770/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 771, + "data_source": "SPAR-Bench", + "question": "How far is the center of chair (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000771/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 772, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of picture (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000772/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 773, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of bag (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000773/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 774, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of chair (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000774/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 775, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of trash can (red point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000775/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 776, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the red point at the center of armchair from the observer in this image? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000776/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 777, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of kitchen cabinet (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000777/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 778, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of chair (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000778/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 779, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of file cabinet (red point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000779/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 780, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of pillow (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000780/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 781, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of towel (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000781/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 782, + "data_source": "SPAR-Bench", + "question": "What is the calculated distance in meters from the observer to the center of desk (red point)? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000782/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 783, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of cabinet in the scene? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000783/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 784, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of sign (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000784/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 785, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of table (red point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000785/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 786, + "data_source": "SPAR-Bench", + "question": "What is the approximate distance in meters from the observer to the center of bathtub (red point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000786/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 787, + "data_source": "SPAR-Bench", + "question": "Determine the Euclidean distance in meters between the center of file cabinet (red point) and the observer in the image. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000787/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 788, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of trash can? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000788/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 789, + "data_source": "SPAR-Bench", + "question": "From the perspective of the person who took the image, how far is pillow (red point)? Provide the distance in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000789/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 790, + "data_source": "SPAR-Bench", + "question": "Please provide the distance in meters between the observer and the red point at the center of monitor (red point). Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000790/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 791, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of case of water bottles (red point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000791/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 792, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of table (red point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000792/000.jpg" + ], + "data_type": "single_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 793, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters from the observer\u2019s location to the red point at the center of chair (red point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000793/000.jpg" + ], + "data_type": "single_view", + "answer": "4.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 794, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of pillow in the image? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000794/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 795, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of toolbox (red point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000795/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 796, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the red point at the center of backpack from the observer in this image? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000796/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 797, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to shoes (red point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000797/000.jpg" + ], + "data_type": "single_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 798, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000798/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 799, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the center of end table (red point) in this scene? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000799/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 800, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of chair (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000800/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 801, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of clothes (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000801/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 802, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of clothes (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000802/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 803, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of toilet (red point) in the photo? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000803/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 804, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of bed (red point) from the observer\u2019s position in the image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000804/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 805, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of cabinet? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000805/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 806, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of bathroom stall (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000806/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 807, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of monitor (red point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000807/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 808, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters from the observer to the center of bottle (red point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000808/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 809, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the person who took the photo and the center of sink (red point) in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000809/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 810, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of chair (red point) from the observer\u2019s position in the image? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000810/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 811, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of chair (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000811/000.jpg" + ], + "data_type": "single_view", + "answer": "4.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 812, + "data_source": "SPAR-Bench", + "question": "How far away, measured in meters, is the observer from the center of trash can (red point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000812/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 813, + "data_source": "SPAR-Bench", + "question": "How many meters away is copier (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000813/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 814, + "data_source": "SPAR-Bench", + "question": "Determine the Euclidean distance in meters between the center of chair (red point) and the observer in the image. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000814/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 815, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of bed (red point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000815/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 816, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of books (red point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000816/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 817, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of books (red point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000817/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 818, + "data_source": "SPAR-Bench", + "question": "What is the separation in meters between the observer and the center of couch (red point)? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000818/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 819, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to trash bin (red point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000819/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 820, + "data_source": "SPAR-Bench", + "question": "Please provide the distance in meters between the observer and the red point at the center of bathtub (red point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000820/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 821, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of monitor (red point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000821/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 822, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters from the observer\u2019s location to the red point at the center of bottle (red point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000822/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 823, + "data_source": "SPAR-Bench", + "question": "What is the approximate distance in meters from the observer to the center of toilet (red point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000823/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 824, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of backpack in the scene? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000824/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 825, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of monitor (red point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000825/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 826, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000826/000.jpg" + ], + "data_type": "single_view", + "answer": "3.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 827, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of bed (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000827/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 828, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of desk (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000828/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 829, + "data_source": "SPAR-Bench", + "question": "What is the separation in meters between the observer and the center of blinds (red point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000829/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 830, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to tv (red point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000830/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 831, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of bathroom vanity (red point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000831/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 832, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of window in the scene? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000832/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 833, + "data_source": "SPAR-Bench", + "question": "From the perspective of the person who took the image, how far is window (red point)? Provide the distance in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000833/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 834, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to toilet paper (red point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000834/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 835, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of cabinet (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000835/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 836, + "data_source": "SPAR-Bench", + "question": "What is the Euclidean distance from the person who captured the image to the center of table (red point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000836/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 837, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of bathroom vanity (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000837/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 838, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of washing machines in the scene? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000838/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 839, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of chair? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000839/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 840, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of armchair (red point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000840/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 841, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of armchair (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000841/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 842, + "data_source": "SPAR-Bench", + "question": "How far is the center of office chair (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000842/000.jpg" + ], + "data_type": "single_view", + "answer": "4.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 843, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of couch (red point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000843/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 844, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000844/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 845, + "data_source": "SPAR-Bench", + "question": "Determine the Euclidean distance in meters between the center of trash can (red point) and the observer in the image. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000845/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 846, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of storage bin (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000846/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 847, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters from the observer\u2019s location to the red point at the center of trash can (red point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000847/000.jpg" + ], + "data_type": "single_view", + "answer": "5.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 848, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of dish rack in the scene? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000848/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 849, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of trash can (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000849/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 850, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of suitcase (red point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000850/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 851, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of trash can (red point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000851/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 852, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of chair (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000852/000.jpg" + ], + "data_type": "single_view", + "answer": "4.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 853, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of ping pong table (red point) from the observer\u2019s position in the image? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000853/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 854, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of cabinet (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000854/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 855, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000855/000.jpg" + ], + "data_type": "single_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 856, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of soap dish (red point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000856/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 857, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of table (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000857/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 858, + "data_source": "SPAR-Bench", + "question": "From the perspective of the person who took the image, how far is pool table (red point)? Provide the distance in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000858/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 859, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of desk (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000859/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 860, + "data_source": "SPAR-Bench", + "question": "What is the spatial distance in meters between the person who took the photo and the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000860/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 861, + "data_source": "SPAR-Bench", + "question": "How far is the center of desk (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000861/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 862, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of table in the scene? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000862/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 863, + "data_source": "SPAR-Bench", + "question": "How far is the center of storage bin (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000863/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 864, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of chair in the scene? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000864/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 865, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of bowl (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000865/000.jpg" + ], + "data_type": "single_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 866, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of towel? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000866/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 867, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to trash can (red point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000867/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 868, + "data_source": "SPAR-Bench", + "question": "How far is the center of shelf (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000868/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 869, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of desk. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000869/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 870, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of board? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000870/000.jpg" + ], + "data_type": "single_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 871, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of keyboard (red point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000871/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 872, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of table (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000872/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 873, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of shoes (red point) from the observer\u2019s position in the image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000873/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 874, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of books (red point). Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000874/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 875, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of nightstand (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000875/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 876, + "data_source": "SPAR-Bench", + "question": "What is the calculated distance in meters from the observer to the center of shoes (red point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000876/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 877, + "data_source": "SPAR-Bench", + "question": "Please provide the distance in meters between the observer and the red point at the center of washing machine (red point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000877/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 878, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of cabinet (red point). Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000878/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 879, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of chair in the image? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000879/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 880, + "data_source": "SPAR-Bench", + "question": "Please provide the distance in meters between the observer and the red point at the center of chair (red point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000880/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 881, + "data_source": "SPAR-Bench", + "question": "How far is the center of cabinet (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000881/000.jpg" + ], + "data_type": "single_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 882, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of sleeping bag (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000882/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 883, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of chair. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000883/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 884, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of file cabinet in the scene? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000884/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 885, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of trash can (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000885/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 886, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of chair (red point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000886/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 887, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of whiteboard (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000887/000.jpg" + ], + "data_type": "single_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 888, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of chair (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000888/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 889, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of chair. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000889/000.jpg" + ], + "data_type": "single_view", + "answer": "4.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 890, + "data_source": "SPAR-Bench", + "question": "What is the spatial distance in meters between the person who took the photo and the center of furnace (red point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000890/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 891, + "data_source": "SPAR-Bench", + "question": "What is the spatial distance in meters between the person who took the photo and the center of pillow (red point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000891/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 892, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of table (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000892/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 893, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the red point at the center of copier from the observer in this image? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000893/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 894, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of table (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000894/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 895, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of bottle (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000895/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 896, + "data_source": "SPAR-Bench", + "question": "What is the calculated distance in meters from the observer to the center of computer tower (red point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000896/000.jpg" + ], + "data_type": "single_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 897, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of chair (red point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000897/000.jpg" + ], + "data_type": "single_view", + "answer": "4.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 898, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of chair (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000898/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 899, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of table (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000899/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 900, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of sink (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000900/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 901, + "data_source": "SPAR-Bench", + "question": "What is the separation in meters between the observer and the center of paper cutter (red point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000901/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 902, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of shelf (red point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000902/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 903, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters from the observer\u2019s location to the red point at the center of office chair (red point). Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000903/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 904, + "data_source": "SPAR-Bench", + "question": "What is the Euclidean distance from the person who captured the image to the center of hand rail (red point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000904/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 905, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-oven distance in meters, considering the center of oven (red point)? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000905/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 906, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of cabinet (red point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000906/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 907, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of bathroom vanity? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000907/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 908, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of guitar (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000908/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 909, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of legs (red point) in the photo? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000909/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 910, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of backpack (red point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000910/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 911, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the red point at the center of kitchen cabinet from the observer in this image? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000911/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 912, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of curtain? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000912/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 913, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000913/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 914, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of suitcase (red point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000914/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 915, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to kitchen cabinet (red point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000915/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 916, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-desk distance in meters, considering the center of desk (red point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000916/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 917, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-cabinet distance in meters, considering the center of cabinet (red point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000917/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 918, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters from the observer to chair (red point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000918/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 919, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of poster. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000919/000.jpg" + ], + "data_type": "single_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 920, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of chair (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000920/000.jpg" + ], + "data_type": "single_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 921, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of sink (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000921/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 922, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of window (red point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000922/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 923, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the person who took the photo and the center of power strip (red point) in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000923/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 924, + "data_source": "SPAR-Bench", + "question": "What is the separation in meters between the observer and the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000924/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 925, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of chair (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000925/000.jpg" + ], + "data_type": "single_view", + "answer": "3.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 926, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of towels (red point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000926/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 927, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the center of laptop (red point) in this scene? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000927/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 928, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of board (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000928/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 929, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of chair (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000929/000.jpg" + ], + "data_type": "single_view", + "answer": "4.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 930, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of stapler (red point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000930/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 931, + "data_source": "SPAR-Bench", + "question": "How far is the center of books (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000931/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 932, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of pipe. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000932/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 933, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of shelf (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000933/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 934, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of soldering iron (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000934/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 935, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of storage cabinet (red point)? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000935/000.jpg" + ], + "data_type": "single_view", + "answer": "9.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 936, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to cabinet (red point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000936/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 937, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the center of computer tower (red point) in this scene? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000937/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 938, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters between chair (red point) and the observer. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000938/000.jpg" + ], + "data_type": "single_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 939, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of power socket in the scene? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000939/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 940, + "data_source": "SPAR-Bench", + "question": "How many meters away is power sockets (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000940/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 941, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of office chair (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000941/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 942, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of box (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000942/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 943, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-bed distance in meters, considering the center of bed (red point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000943/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 944, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of table mat (red point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000944/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 945, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of coffee maker (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000945/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 946, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of whiteboard (red point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000946/000.jpg" + ], + "data_type": "single_view", + "answer": "6.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 947, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of window (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000947/000.jpg" + ], + "data_type": "single_view", + "answer": "5.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 948, + "data_source": "SPAR-Bench", + "question": "What is the Euclidean distance from the person who captured the image to the center of SPLIT (red point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000948/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 949, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of sculpture (red point) from the observer\u2019s position in the image? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000949/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 950, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters between window (red point) and the observer. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000950/000.jpg" + ], + "data_type": "single_view", + "answer": "7.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 951, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of trash bin (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000951/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 952, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of sink (red point)? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000952/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 953, + "data_source": "SPAR-Bench", + "question": "How far is the center of table (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000953/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 954, + "data_source": "SPAR-Bench", + "question": "How many meters away is bunny chocolate (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000954/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 955, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters from the observer to light switch (red point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000955/000.jpg" + ], + "data_type": "single_view", + "answer": "7.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 956, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the person who took the photo and the center of jacket (red point) in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000956/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 957, + "data_source": "SPAR-Bench", + "question": "How far away, measured in meters, is the observer from the center of bottle crate (red point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000957/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 958, + "data_source": "SPAR-Bench", + "question": "How far is the center of SPLIT (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000958/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 959, + "data_source": "SPAR-Bench", + "question": "How far is the center of tray (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000959/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 960, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of power socket? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000960/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 961, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of power socket (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000961/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 962, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of wooden plank (red point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000962/000.jpg" + ], + "data_type": "single_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 963, + "data_source": "SPAR-Bench", + "question": "How far is the center of copy machine (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000963/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 964, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to stool (red point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_000964/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 965, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of book. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000965/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 966, + "data_source": "SPAR-Bench", + "question": "What is the Euclidean distance from the person who captured the image to the center of shampoo bottle (red point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000966/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 967, + "data_source": "SPAR-Bench", + "question": "Please provide the distance in meters between the observer and the red point at the center of electrical duct (red point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000967/000.jpg" + ], + "data_type": "single_view", + "answer": "5.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 968, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of soldering iron (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000968/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 969, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of chair (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000969/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 970, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of box (red point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_000970/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 971, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of toilet paper (red point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_000971/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 972, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of bathroom shelf (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000972/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 973, + "data_source": "SPAR-Bench", + "question": "How many meters away is switch (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000973/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 974, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of bottle (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000974/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 975, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters from the observer to the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000975/000.jpg" + ], + "data_type": "single_view", + "answer": "3.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 976, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the person who took the photo and the center of bottle crate (red point) in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000976/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 977, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of desk (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_000977/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 978, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of table? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000978/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 979, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of cable tray (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_000979/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 980, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of first aid cabinet? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_000980/000.jpg" + ], + "data_type": "single_view", + "answer": "5.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 981, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of copier. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000981/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 982, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of laboratory equipment (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_000982/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 983, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of laptop. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_000983/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 984, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of bottle (red point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000984/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 985, + "data_source": "SPAR-Bench", + "question": "From the perspective of the person who took the image, how far is bottle (red point)? Provide the distance in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_000985/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 986, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of counter? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000986/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 987, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the center of box (red point) in this scene? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_000987/000.jpg" + ], + "data_type": "single_view", + "answer": "3.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 988, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of light switch (red point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000988/000.jpg" + ], + "data_type": "single_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 989, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of monitor? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_000989/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 990, + "data_source": "SPAR-Bench", + "question": "How many meters away is phone (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_000990/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 991, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of SPLIT (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_000991/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 992, + "data_source": "SPAR-Bench", + "question": "What is the spatial distance in meters between the person who took the photo and the center of bookshelf (red point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_000992/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 993, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of shoe rack (red point). Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000993/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 994, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of cup? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_000994/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 995, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of window frame in the image? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_000995/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 996, + "data_source": "SPAR-Bench", + "question": "How far away, measured in meters, is the observer from the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_000996/000.jpg" + ], + "data_type": "single_view", + "answer": "4.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 997, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of chair. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_000997/000.jpg" + ], + "data_type": "single_view", + "answer": "5.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 998, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of monitor (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_000998/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 999, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to phone (red point)? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_000999/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1000, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the red point at the center of outlet from the observer in this image? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001000/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1001, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters from the observer to the center of paper towel package (red point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001001/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1002, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of table (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001002/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1003, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of chair (red point) in the photo? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001003/000.jpg" + ], + "data_type": "single_view", + "answer": "5.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1004, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters between sink counter (red point) and the observer. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001004/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1005, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the red point at the center of window from the observer in this image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001005/000.jpg" + ], + "data_type": "single_view", + "answer": "7.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1006, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of power socket (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001006/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1007, + "data_source": "SPAR-Bench", + "question": "What is the Euclidean distance from the person who captured the image to the center of pillow (red point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001007/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1008, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of chair (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001008/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1009, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the person who took the photo and the center of tv (red point) in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001009/000.jpg" + ], + "data_type": "single_view", + "answer": "6.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1010, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of monitor (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001010/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1011, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of structure (red point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001011/000.jpg" + ], + "data_type": "single_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1012, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of sofa (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001012/000.jpg" + ], + "data_type": "single_view", + "answer": "6.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1013, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of computer tower (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001013/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1014, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of power socket (red point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001014/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1015, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of bottle (red point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001015/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1016, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of light switch (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001016/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1017, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of pen (red point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001017/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1018, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters from the observer to chair (red point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001018/000.jpg" + ], + "data_type": "single_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1019, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-counter distance in meters, considering the center of counter (red point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001019/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1020, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of bathroom counter (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001020/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1021, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of keyboard (red point) from the observer\u2019s position in the image? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001021/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1022, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of mug (red point) in the photo? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001022/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1023, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of book? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001023/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1024, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of toilet (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001024/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1025, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of chair (red point) in the photo? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001025/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1026, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of table (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001026/000.jpg" + ], + "data_type": "single_view", + "answer": "3.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1027, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to clothes (red point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001027/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1028, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of bag in the image? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001028/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1029, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of toilet (red point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001029/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1030, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters from the observer\u2019s location to the red point at the center of power socket (red point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001030/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1031, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to bench (red point)? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001031/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1032, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-table distance in meters, considering the center of table (red point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001032/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1033, + "data_source": "SPAR-Bench", + "question": "How far is the center of water kettle (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001033/000.jpg" + ], + "data_type": "single_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1034, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of pliers (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001034/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1035, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of flush button (red point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001035/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1036, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of power socket. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001036/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1037, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of paper stapler (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001037/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1038, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of SPLIT (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001038/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1039, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of office chair (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001039/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1040, + "data_source": "SPAR-Bench", + "question": "How many meters away is chair (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001040/000.jpg" + ], + "data_type": "single_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1041, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of flush button (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001041/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1042, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters from the observer\u2019s location to the red point at the center of toilet paper (red point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001042/000.jpg" + ], + "data_type": "single_view", + "answer": "4.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1043, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of towel (red point) from the observer\u2019s position in the image? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001043/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1044, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the person who took the photo and the center of toothbrush (red point) in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001044/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1045, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of chair (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001045/000.jpg" + ], + "data_type": "single_view", + "answer": "6.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1046, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of cup (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001046/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1047, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of table (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001047/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1048, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of utensils (red point)? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001048/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1049, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of chair (red point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001049/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1050, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of structure (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001050/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1051, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of box in the scene? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001051/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1052, + "data_source": "SPAR-Bench", + "question": "Determine the Euclidean distance in meters between the center of pipe (red point) and the observer in the image. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001052/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1053, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of heater in the image? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001053/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1054, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of SPLIT (red point) from the observer\u2019s position in the image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001054/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1055, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of eraser (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001055/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1056, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of machine? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001056/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1057, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of dishwashing sponge (red point)? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001057/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1058, + "data_source": "SPAR-Bench", + "question": "Determine the Euclidean distance in meters between the center of computer tower (red point) and the observer in the image. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001058/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1059, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001059/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1060, + "data_source": "SPAR-Bench", + "question": "How many meters away is window frame (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001060/000.jpg" + ], + "data_type": "single_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1061, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of bottle (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001061/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1062, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to paper bag (red point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001062/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1063, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of outlet (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001063/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1064, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of machine? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001064/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1065, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of shower curtain (red point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001065/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1066, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of sink (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001066/000.jpg" + ], + "data_type": "single_view", + "answer": "5.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1067, + "data_source": "SPAR-Bench", + "question": "Please provide the distance in meters between the observer and the red point at the center of cup (red point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001067/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1068, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of book (red point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001068/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1069, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of chair (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001069/000.jpg" + ], + "data_type": "single_view", + "answer": "5.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1070, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of table (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001070/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1071, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of mouse (red point) in the photo? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001071/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1072, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of first aid box (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001072/000.jpg" + ], + "data_type": "single_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1073, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of kettle (red point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001073/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1074, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of cable socket (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001074/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1075, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of table (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001075/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1076, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of table (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001076/000.jpg" + ], + "data_type": "single_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1077, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of power socket (red point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001077/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1078, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of cabinet (red point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001078/000.jpg" + ], + "data_type": "single_view", + "answer": "4.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1079, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of bottle crate (red point) from the observer\u2019s position in the image? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001079/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1080, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of shower gel (red point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001080/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1081, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of board in the image? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001081/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1082, + "data_source": "SPAR-Bench", + "question": "How far is the center of light switch (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001082/000.jpg" + ], + "data_type": "single_view", + "answer": "5.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1083, + "data_source": "SPAR-Bench", + "question": "Determine the Euclidean distance in meters between the center of chessboard (red point) and the observer in the image. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001083/000.jpg" + ], + "data_type": "single_view", + "answer": "6.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1084, + "data_source": "SPAR-Bench", + "question": "Determine the Euclidean distance in meters between the center of cable duct (red point) and the observer in the image. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001084/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1085, + "data_source": "SPAR-Bench", + "question": "How far is the center of monitor (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001085/000.jpg" + ], + "data_type": "single_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1086, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of bowl (red point). Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001086/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1087, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of pens (red point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001087/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1088, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-power socket distance in meters, considering the center of power socket (red point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001088/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1089, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of dishwasher (red point)? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001089/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1090, + "data_source": "SPAR-Bench", + "question": "Determine the Euclidean distance in meters between the center of jacket (red point) and the observer in the image. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001090/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1091, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of dishwasher (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001091/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1092, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of SPLIT (red point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001092/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1093, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of keyboard (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001093/000.jpg" + ], + "data_type": "single_view", + "answer": "5.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1094, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of pillow (red point)? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001094/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1095, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of window frame (red point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001095/000.jpg" + ], + "data_type": "single_view", + "answer": "4.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1096, + "data_source": "SPAR-Bench", + "question": "Determine the Euclidean distance in meters between the center of box (red point) and the observer in the image. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001096/000.jpg" + ], + "data_type": "single_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1097, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of foldable closet (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001097/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1098, + "data_source": "SPAR-Bench", + "question": "What is the separation in meters between the observer and the center of pillow (red point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001098/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1099, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of chair (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001099/000.jpg" + ], + "data_type": "single_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1100, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of books (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001100/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1101, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of kitchen counter (red point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001101/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1102, + "data_source": "SPAR-Bench", + "question": "How far is the center of pillow (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001102/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1103, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of paper (red point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001103/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1104, + "data_source": "SPAR-Bench", + "question": "What is the calculated distance in meters from the observer to the center of box (red point)? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001104/000.jpg" + ], + "data_type": "single_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1105, + "data_source": "SPAR-Bench", + "question": "What is the spatial distance in meters between the person who took the photo and the center of picture (red point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001105/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1106, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of kitchen object (red point). Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001106/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1107, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of ball (red point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001107/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1108, + "data_source": "SPAR-Bench", + "question": "What is the approximate distance in meters from the observer to the center of trash bin (red point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001108/000.jpg" + ], + "data_type": "single_view", + "answer": "5.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1109, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters between light switch (red point) and the observer. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001109/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1110, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters between jacket (red point) and the observer. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001110/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1111, + "data_source": "SPAR-Bench", + "question": "How far is the center of kitchen cabinet (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001111/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1112, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of multiplug (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001112/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1113, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of structure (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001113/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1114, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of pen holder (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001114/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1115, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the red point at the center of monitor from the observer in this image? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001115/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1116, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of hole puncher (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001116/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1117, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to cheese (red point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001117/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1118, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to book (red point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001118/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1119, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of window? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001119/000.jpg" + ], + "data_type": "single_view", + "answer": "5.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1120, + "data_source": "SPAR-Bench", + "question": "What is the Euclidean distance from the person who captured the image to the center of box (red point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001120/000.jpg" + ], + "data_type": "single_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1121, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of chair (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001121/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1122, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of blanket (red point) and clothes (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001122/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1123, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of trash can (red point) from the center of bathroom counter (blue point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001123/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1124, + "data_source": "SPAR-Bench", + "question": "What is the precise distance in meters from chair (red point) to book (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001124/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1125, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between armchair and armchair in the image? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001125/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1126, + "data_source": "SPAR-Bench", + "question": "In meters, what is the center-to-center Euclidean distance between pillow (red point) and clothing (blue point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001126/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1127, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters from the red point representing trash can to the blue point representing laundry hamper? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001127/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1128, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of couch (red point) from the center of tv stand (blue point) in the image? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001128/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1129, + "data_source": "SPAR-Bench", + "question": "Please determine the center-to-center distance in meters between cabinet (red point) and towel (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001129/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1130, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters between table (red point) and chair (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001130/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1131, + "data_source": "SPAR-Bench", + "question": "Find the distance, measured in meters, separating the centers of office chair (red point) and backpack (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001131/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1132, + "data_source": "SPAR-Bench", + "question": "State the Euclidean distance in meters from the center of monitor (red point) to the center of box (blue point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001132/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1133, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of office chair (red point) and the center of office chair (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001133/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1134, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of table (red point) from the center of refrigerator (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001134/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1135, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center distance in meters between shoes (red point) and backpack (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001135/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1136, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters from the center of rail (red point) to the center of rail (blue point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001136/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1137, + "data_source": "SPAR-Bench", + "question": "In meters, what is the calculated distance between the red and blue points representing chair and keyboard? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001137/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1138, + "data_source": "SPAR-Bench", + "question": "How far in meters is bookshelf (red point) from case of water bottles (blue point) based on their centers in the image? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001138/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1139, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of chair (red point) and chair (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001139/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1140, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of chair (red point) from the center of chair (blue point)? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001140/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1141, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of beer bottles (red point) and paper towel roll (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001141/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1142, + "data_source": "SPAR-Bench", + "question": "In meters, what is the center-to-center Euclidean distance between trash can (red point) and trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001142/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1143, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of board (red point) and picture (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001143/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1144, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between desk (red point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001144/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1145, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking storage bin and lamp? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001145/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1146, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of trash can (red point) and the center of laundry hamper (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001146/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1147, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of chair (red point) to the center of chair (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001147/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1148, + "data_source": "SPAR-Bench", + "question": "What is the direct distance in meters between the red point of shirt and the blue point of clothes at their centers? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001148/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1149, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of curtain (red point) and clothes (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001149/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1150, + "data_source": "SPAR-Bench", + "question": "How far away, in meters, is the center of picture (red point) from the center of picture (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001150/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1151, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between toilet paper (red point) and telephone (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001151/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1152, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of backpack (red point) to the center of recycling bin (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001152/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1153, + "data_source": "SPAR-Bench", + "question": "In the image, how far in meters is the center of the red point from the blue point representing office chair and office chair? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001153/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1154, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters from the center of refrigerator (red point) to the center of window (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001154/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1155, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of chair (red point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001155/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1156, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of chair (red point) to chair (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001156/000.jpg" + ], + "data_type": "single_view", + "answer": "3.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1157, + "data_source": "SPAR-Bench", + "question": "What is the shortest distance in meters between the center of toilet paper (red point) and the center of toilet paper (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001157/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1158, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of chair and chair? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001158/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1159, + "data_source": "SPAR-Bench", + "question": "State the distance in meters from sink (red point) to ledge (blue point), based on their centers. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001159/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1160, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center distance in meters between pillow (red point) and nightstand (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001160/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1161, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of recycling bin to the blue center of window in the image? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001161/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1162, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of chair (red point) and chair (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001162/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1163, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of whiteboard (red point) from the center of backpack (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001163/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1164, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of mat (red point) and the center of desk (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001164/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1165, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance from the center of sink (red point) to the center of cup (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001165/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1166, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of printer to the blue center of laptop in the image? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001166/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1167, + "data_source": "SPAR-Bench", + "question": "Please determine the center-to-center distance in meters between monitor (red point) and thermostat (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001167/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1168, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of kitchen cabinet (red point) and the center of water pitcher (blue point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001168/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1169, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of trash can (red point) from the center of sink (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001169/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1170, + "data_source": "SPAR-Bench", + "question": "Calculate the Euclidean distance between cabinet (red point) and backpack (blue point) at their centers, expressed in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001170/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1171, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing table and books? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001171/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1172, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking glass doors and table? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001172/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1173, + "data_source": "SPAR-Bench", + "question": "Find the distance, measured in meters, separating the centers of chair (red point) and bucket (blue point). Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001173/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1174, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of chair (red point) to the center of chair (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001174/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1175, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of faucet (red point) to the center of soap dispenser (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001175/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1176, + "data_source": "SPAR-Bench", + "question": "In meters, what is the calculated distance between the red and blue points representing chair and chair? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001176/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1177, + "data_source": "SPAR-Bench", + "question": "What is the shortest distance in meters between the center of nightstand (red point) and the center of pillow (blue point)? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001177/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1178, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of dish rack (red point) and the center of sink (blue point). Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001178/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1179, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of trash can (red point) from the center of trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001179/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1180, + "data_source": "SPAR-Bench", + "question": "State the Euclidean distance in meters from the center of cabinet (red point) to the center of window (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001180/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1181, + "data_source": "SPAR-Bench", + "question": "Calculate the Euclidean distance between picture (red point) and picture (blue point) at their centers, expressed in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001181/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1182, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking chair and chair? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001182/000.jpg" + ], + "data_type": "single_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1183, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of end table (red point) and armchair (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001183/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1184, + "data_source": "SPAR-Bench", + "question": "What is the precise distance in meters from toilet (red point) to towel (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001184/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1185, + "data_source": "SPAR-Bench", + "question": "Please determine the center-to-center distance in meters between laundry detergent (red point) and sink (blue point). Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001185/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1186, + "data_source": "SPAR-Bench", + "question": "What is the gap in meters between the center of window (red point) and the center of trash can (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001186/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1187, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of toaster (red point) and kitchen cabinets (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001187/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1188, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters from the center of chair (red point) to the center of chair (blue point). Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001188/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1189, + "data_source": "SPAR-Bench", + "question": "State the Euclidean distance in meters from the center of chair (red point) to the center of keyboard (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001189/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1190, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of soap dish and shower control valve? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001190/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1191, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking bag and storage bin? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001191/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1192, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of bookshelf (red point) from the center of jar (blue point)? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001192/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1193, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between monitor (red point) and cabinet (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001193/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1194, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters between trash can (red point) and armchair (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001194/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1195, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking desk and cabinet? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001195/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1196, + "data_source": "SPAR-Bench", + "question": "What is the measured separation in meters between the center of trash can (red point) and the center of chair (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001196/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1197, + "data_source": "SPAR-Bench", + "question": "Can you calculate the Euclidean distance between the center of radiator (red point) and the center of wood (blue point) and provide it in meters? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001197/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1198, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of picture (red point) and the center of picture (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001198/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1199, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of bucket (red point) and chair (blue point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001199/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1200, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of monitor to the blue center of monitor in the image? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001200/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1201, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of recycling bin (red point) and recycling bin (blue point)? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001201/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1202, + "data_source": "SPAR-Bench", + "question": "In meters, what is the center-to-center Euclidean distance between couch (red point) and stair rail (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001202/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1203, + "data_source": "SPAR-Bench", + "question": "What is the shortest distance in meters between the center of keyboard (red point) and the center of monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001203/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1204, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of trash can (red point) from the center of book (blue point)? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001204/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1205, + "data_source": "SPAR-Bench", + "question": "What is the direct distance in meters between the red point of office chair and the blue point of office chair at their centers? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001205/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1206, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of armchair (red point) and books (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001206/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1207, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the center of guitar (red point) and the center of plant (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001207/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1208, + "data_source": "SPAR-Bench", + "question": "Can you calculate the Euclidean distance between the center of toilet paper (red point) and the center of sink (blue point) and provide it in meters? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001208/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1209, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of armchair (red point) and armchair (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001209/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1210, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of window (red point) to picture (blue point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001210/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1211, + "data_source": "SPAR-Bench", + "question": "How far in meters is chair (red point) from keyboard (blue point) based on their centers in the image? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001211/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1212, + "data_source": "SPAR-Bench", + "question": "How far apart are the centers of plastic container (red point) and bin (blue point) in the image, measured in meters? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001212/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1213, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of trash can (red point) from the center of toilet paper (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001213/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1214, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of banner (red point) and the center of case of water bottles (blue point). Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001214/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1215, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of table (red point) and table (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001215/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1216, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center distance in meters between toilet paper (red point) and toilet (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001216/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1217, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between toilet seat cover dispenser (red point) and bathroom stall door (blue point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001217/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1218, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center spacing between chair (red point) and chair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001218/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1219, + "data_source": "SPAR-Bench", + "question": "What is the physical distance, in meters, from the center of tissue box (red point) to the center of toilet (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001219/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1220, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of chair (red point) to plant (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001220/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1221, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of box (red point) to bottle (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001221/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1222, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between picture (red point) and picture (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001222/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1223, + "data_source": "SPAR-Bench", + "question": "Please determine the center-to-center distance in meters between laptop (red point) and jar (blue point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001223/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1224, + "data_source": "SPAR-Bench", + "question": "How far in meters is trash can (red point) from telephone (blue point) based on their centers in the image? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001224/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1225, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking table and chair? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001225/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1226, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of lamp (red point) and end table (blue point)? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001226/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1227, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of bowl (red point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001227/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1228, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of kitchen cabinet (red point) and kitchen cabinet (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001228/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1229, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between bench and shoes in the image? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001229/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1230, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of toilet paper holder (red point) and towel (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001230/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1231, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance from the center of cabinet (red point) to the center of drying rack (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001231/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1232, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of monitor (red point) from the center of chair (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001232/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1233, + "data_source": "SPAR-Bench", + "question": "How far in meters is kitchen cabinet (red point) from microwave (blue point) based on their centers in the image? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001233/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1234, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of box (red point) from the center of stand (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001234/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1235, + "data_source": "SPAR-Bench", + "question": "Provide the distance in meters separating the center of bookshelf (red point) and the center of table (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001235/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1236, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing shelf and toilet paper? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001236/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1237, + "data_source": "SPAR-Bench", + "question": "State the Euclidean distance in meters from the center of trash can (red point) to the center of chair (blue point). Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001237/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1238, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance from the center of oven (red point) to the center of kitchen cabinets (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001238/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1239, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of microwave (red point) and kitchen counter (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001239/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1240, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of chair (red point) to the center of trash can (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001240/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1241, + "data_source": "SPAR-Bench", + "question": "What is the gap in meters between the center of chair (red point) and the center of chair (blue point) in this image? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001241/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1242, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of trash can (red point) to printer (blue point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001242/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1243, + "data_source": "SPAR-Bench", + "question": "How far apart are the centers of stair rail (red point) and bottle (blue point) in the image, measured in meters? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001243/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1244, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking chair and chair? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001244/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1245, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of book (red point) and clothing (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001245/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1246, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center spacing between window (red point) and plant (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001246/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1247, + "data_source": "SPAR-Bench", + "question": "Calculate the Euclidean distance between laptop (red point) and monitor (blue point) at their centers, expressed in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001247/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1248, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of paper cutter (red point) to the center of bucket (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001248/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1249, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of chair (red point) and chair (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001249/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1250, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of chair (red point) and the center of trash can (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001250/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1251, + "data_source": "SPAR-Bench", + "question": "What is the gap in meters between the center of refrigerator (red point) and the center of refrigerator (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001251/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1252, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking dispenser and trash can? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001252/000.jpg" + ], + "data_type": "single_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1253, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of chair (red point) from the center of chair (blue point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001253/000.jpg" + ], + "data_type": "single_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1254, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of books (red point) and the center of books (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001254/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1255, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of backpack (red point) and paper bag (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001255/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1256, + "data_source": "SPAR-Bench", + "question": "Please determine the center-to-center distance in meters between toilet (red point) and radiator (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001256/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1257, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of table (red point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001257/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1258, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of chair (red point) and whiteboard (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001258/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1259, + "data_source": "SPAR-Bench", + "question": "Please determine the center-to-center distance in meters between shoes (red point) and shoes (blue point). Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001259/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1260, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of chair (red point) and monitor (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001260/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1261, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of stool (red point) from the center of lamp (blue point)? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001261/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1262, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of pillow (red point) and dresser (blue point). Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001262/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1263, + "data_source": "SPAR-Bench", + "question": "What is the gap in meters between the center of soap dish (red point) and the center of box (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001263/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1264, + "data_source": "SPAR-Bench", + "question": "Provide the distance in meters separating the center of office chair (red point) and the center of office chair (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001264/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1265, + "data_source": "SPAR-Bench", + "question": "What is the precise distance in meters from chair (red point) to chair (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001265/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1266, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between trash can and trash can in the image? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001266/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1267, + "data_source": "SPAR-Bench", + "question": "What is the gap in meters between the center of backpack (red point) and the center of salt (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001267/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1268, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between dispenser and trash bin in the image? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001268/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1269, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of chair (red point) and the center of backpack (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001269/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1270, + "data_source": "SPAR-Bench", + "question": "How far away, in meters, is the center of chair (red point) from the center of chair (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001270/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1271, + "data_source": "SPAR-Bench", + "question": "Calculate the Euclidean distance between shoes (red point) and shoes (blue point) at their centers, expressed in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001271/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1272, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between tray and papers in the image? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001272/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1273, + "data_source": "SPAR-Bench", + "question": "Provide the distance in meters separating the center of piano (red point) and the center of toolbox (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001273/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1274, + "data_source": "SPAR-Bench", + "question": "What is the gap in meters between the center of chair (red point) and the center of table (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001274/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1275, + "data_source": "SPAR-Bench", + "question": "How far away, in meters, is the center of towel (red point) from the center of trash can (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001275/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1276, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing table and coffee table? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001276/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1277, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of furnace (red point) and towel (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001277/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1278, + "data_source": "SPAR-Bench", + "question": "What is the precise distance in meters from papers (red point) to chair (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001278/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1279, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing shelf and chair? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001279/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1280, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of chair (red point) and the center of chair (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001280/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1281, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking toilet and toilet paper? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001281/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1282, + "data_source": "SPAR-Bench", + "question": "What is the precise distance in meters from monitor (red point) to monitor (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001282/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1283, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of chair (red point) from the center of chair (blue point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001283/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1284, + "data_source": "SPAR-Bench", + "question": "Please determine the center-to-center distance in meters between couch (red point) and backpack (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001284/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1285, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center spacing between chair (red point) and table (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001285/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1286, + "data_source": "SPAR-Bench", + "question": "What is the shortest distance in meters between the center of nightstand (red point) and the center of pillow (blue point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001286/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1287, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of rail (red point) and toilet paper (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001287/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1288, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center spacing between chair (red point) and chair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001288/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1289, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between backpack (red point) and pillar (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001289/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1290, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters from the red point representing chair to the blue point representing chair? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001290/000.jpg" + ], + "data_type": "single_view", + "answer": "4.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1291, + "data_source": "SPAR-Bench", + "question": "How far apart are the centers of table (red point) and storage bin (blue point) in the image, measured in meters? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001291/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1292, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of cabinet (red point) and the center of backpack (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001292/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1293, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking cart and table? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001293/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1294, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the center of chair (red point) and the center of chair (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001294/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1295, + "data_source": "SPAR-Bench", + "question": "In meters, what is the center-to-center Euclidean distance between box (red point) and desk (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001295/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1296, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of pitcher (red point) and picture (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001296/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1297, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of soap dish (red point) and towel (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001297/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1298, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the center of office chair (red point) and the center of office chair (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001298/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1299, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between bottle (red point) and mirror (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001299/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1300, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of chair and chair? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001300/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1301, + "data_source": "SPAR-Bench", + "question": "In meters, what is the center-to-center Euclidean distance between chair (red point) and table (blue point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001301/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1302, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of clothes (red point) and curtain (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001302/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1303, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between bathroom stall door (red point) and soap dispenser (blue point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001303/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1304, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of chair (red point) to table (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001304/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1305, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of pillow (red point) and ottoman (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001305/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1306, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking chair and trash can? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001306/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1307, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between box and printer in the image? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001307/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1308, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of desk (red point) from the center of envelope (blue point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001308/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1309, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of chair (red point) and the center of table (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001309/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1310, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of bathroom stall (red point) and soap dispenser (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001310/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1311, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of suitcase (red point) and the center of bed (blue point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001311/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1312, + "data_source": "SPAR-Bench", + "question": "Please determine the center-to-center distance in meters between table (red point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001312/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1313, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of chair (red point) and backpack (blue point). Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001313/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1314, + "data_source": "SPAR-Bench", + "question": "What is the measured separation in meters between the center of trash bin (red point) and the center of mat (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001314/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1315, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of board (red point) from the center of paper stapler (blue point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001315/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1316, + "data_source": "SPAR-Bench", + "question": "In meters, what is the center-to-center Euclidean distance between chair (red point) and chair (blue point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001316/000.jpg" + ], + "data_type": "single_view", + "answer": "4.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1317, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between bookshelf (red point) and trash can (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001317/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1318, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of book (red point) and the center of book (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001318/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1319, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of chair (red point) from the center of heater (blue point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001319/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1320, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking box and chair? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001320/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1321, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of toilet paper holder (red point) from the center of toilet brush (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001321/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1322, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing blackboard and chair? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001322/000.jpg" + ], + "data_type": "single_view", + "answer": "4.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1323, + "data_source": "SPAR-Bench", + "question": "What is the precise distance in meters from chair (red point) to chair (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001323/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1324, + "data_source": "SPAR-Bench", + "question": "What is the length of the straight line, in meters, connecting the centers of decoration (red point) and plant (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001324/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1325, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters from the red point representing mirror lamp to the blue point representing toothpaste? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001325/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1326, + "data_source": "SPAR-Bench", + "question": "What is the length of the straight line, in meters, connecting the centers of air conditioner (red point) and monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001326/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1327, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of box (red point) and the center of chair (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001327/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1328, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of tools (red point) and machine (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001328/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1329, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters from the center of shelf (red point) to the center of bedside cabinet (blue point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001329/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1330, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of SPLIT (red point) to pipe (blue point). Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001330/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1331, + "data_source": "SPAR-Bench", + "question": "In meters, what is the center-to-center Euclidean distance between book (red point) and box (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001331/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1332, + "data_source": "SPAR-Bench", + "question": "What is the measured separation in meters between the center of tubelight (red point) and the center of machine (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001332/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1333, + "data_source": "SPAR-Bench", + "question": "In the image, how far in meters is the center of the red point from the blue point representing structure and chair? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001333/000.jpg" + ], + "data_type": "single_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1334, + "data_source": "SPAR-Bench", + "question": "Calculate the Euclidean distance between toilet (red point) and flush button (blue point) at their centers, expressed in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001334/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1335, + "data_source": "SPAR-Bench", + "question": "Please determine the center-to-center distance in meters between printer (red point) and plant pot (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001335/000.jpg" + ], + "data_type": "single_view", + "answer": "5.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1336, + "data_source": "SPAR-Bench", + "question": "What is the length of the straight line, in meters, connecting the centers of book (red point) and book (blue point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001336/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1337, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of table (red point) and chair (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001337/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1338, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of sink counter (red point) to the center of kitchen cabinet (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001338/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1339, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of box (red point) and power sockets (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001339/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1340, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of trash bin (red point) to toilet brush (blue point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001340/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1341, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center spacing between cardboard box (red point) and storage cabinet (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001341/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1342, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of sofa (red point) and the center of cushion (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001342/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1343, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of split (red point) from the center of chair (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001343/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1344, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of desk (red point) to the center of power socket (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001344/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1345, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of split (red point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001345/000.jpg" + ], + "data_type": "single_view", + "answer": "4.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1346, + "data_source": "SPAR-Bench", + "question": "How far in meters is paper ram (red point) from power socket (blue point) based on their centers in the image? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001346/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1347, + "data_source": "SPAR-Bench", + "question": "What is the measured separation in meters between the center of jacket (red point) and the center of bed (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001347/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1348, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking split and bed? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001348/000.jpg" + ], + "data_type": "single_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1349, + "data_source": "SPAR-Bench", + "question": "In meters, what is the center-to-center Euclidean distance between office chair (red point) and backpack (blue point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001349/000.jpg" + ], + "data_type": "single_view", + "answer": "4.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1350, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between box (red point) and box (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001350/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1351, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of bottle to the blue center of plant pot in the image? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001351/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1352, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between sofa and stool in the image? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001352/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1353, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing paper bag and monitor? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001353/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1354, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of bedside counter (red point) and bedside table (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001354/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1355, + "data_source": "SPAR-Bench", + "question": "What is the shortest distance in meters between the center of cabinet (red point) and the center of box (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001355/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1356, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of desk (red point) to the center of keyboard (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001356/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1357, + "data_source": "SPAR-Bench", + "question": "What is the shortest distance in meters between the center of desk (red point) and the center of books (blue point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001357/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1358, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking bag and heater? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001358/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1359, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center spacing between split (red point) and monitor (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001359/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1360, + "data_source": "SPAR-Bench", + "question": "In the image, how far in meters is the center of the red point from the blue point representing kitchen counter and bag? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001360/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1361, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of tv (red point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001361/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1362, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of keyboard (red point) and the center of keyboard (blue point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001362/000.jpg" + ], + "data_type": "single_view", + "answer": "4.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1363, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of storage cabinet to the blue center of office chair in the image? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001363/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1364, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of picture (red point) from the center of shelf (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001364/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1365, + "data_source": "SPAR-Bench", + "question": "Find the distance, measured in meters, separating the centers of machine (red point) and cables (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001365/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1366, + "data_source": "SPAR-Bench", + "question": "How far apart are the centers of pc (red point) and comforter (blue point) in the image, measured in meters? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001366/000.jpg" + ], + "data_type": "single_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1367, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of books (red point) and the center of multiplug (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001367/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1368, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of computer tower (red point) to the center of box (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001368/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1369, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking book and multiplug? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001369/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1370, + "data_source": "SPAR-Bench", + "question": "Please determine the center-to-center distance in meters between sink (red point) and shaving foam (blue point). Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001370/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1371, + "data_source": "SPAR-Bench", + "question": "What is the direct distance in meters between the red point of window and the blue point of picture at their centers? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001371/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1372, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of kitchen towel (red point) and chopping board (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001372/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1373, + "data_source": "SPAR-Bench", + "question": "What is the precise distance in meters from sink (red point) to chair (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001373/000.jpg" + ], + "data_type": "single_view", + "answer": "5.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1374, + "data_source": "SPAR-Bench", + "question": "What is the length of the straight line, in meters, connecting the centers of heater (red point) and bed (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001374/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1375, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of pipe (red point) and pipe (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001375/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1376, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center spacing between decoration (red point) and chair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001376/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1377, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between bucket (red point) and power socket (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001377/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1378, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking box and box? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001378/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1379, + "data_source": "SPAR-Bench", + "question": "How far in meters is picture (red point) from plant pot (blue point) based on their centers in the image? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001379/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1380, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of chair (red point) and the center of table (blue point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001380/000.jpg" + ], + "data_type": "single_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1381, + "data_source": "SPAR-Bench", + "question": "What is the measured separation in meters between the center of table mat (red point) and the center of paper (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001381/000.jpg" + ], + "data_type": "single_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1382, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of cup and toothpaste? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001382/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1383, + "data_source": "SPAR-Bench", + "question": "How far away, in meters, is the center of book (red point) from the center of multiplug (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001383/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1384, + "data_source": "SPAR-Bench", + "question": "What is the length of the straight line, in meters, connecting the centers of stove (red point) and kettle (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001384/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1385, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of monitor (red point) to power socket (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001385/000.jpg" + ], + "data_type": "single_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1386, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of office chair (red point) to the center of power socket (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001386/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1387, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of power socket (red point) from the center of heater (blue point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001387/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1388, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of pipe (red point) and laboratory equipment (blue point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001388/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1389, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of table (red point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001389/000.jpg" + ], + "data_type": "single_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1390, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing SPLIT and chair? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001390/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1391, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of paper (red point) to mug (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001391/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1392, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of chair (red point) and power socket (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001392/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1393, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of lamp (red point) and table (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001393/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1394, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of table (red point) and chair (blue point) in this image? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001394/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1395, + "data_source": "SPAR-Bench", + "question": "What is the length of the straight line, in meters, connecting the centers of box (red point) and trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001395/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1396, + "data_source": "SPAR-Bench", + "question": "Provide the distance in meters separating the center of table (red point) and the center of stool (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001396/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1397, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of power socket (red point) and box (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001397/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1398, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of cardboard box (red point) and cardboard box (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001398/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1399, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of chair (red point) and bottle (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001399/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1400, + "data_source": "SPAR-Bench", + "question": "What is the precise distance in meters from picture (red point) to panel (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001400/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1401, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters between plant (red point) and chair (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001401/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1402, + "data_source": "SPAR-Bench", + "question": "What is the precise distance in meters from coax socket (red point) to hole puncher (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001402/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1403, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters between cable tray (red point) and cardboard box (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001403/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1404, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between shelf (red point) and exhaust fan (blue point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001404/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1405, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of picture (red point) and light switch (blue point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001405/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1406, + "data_source": "SPAR-Bench", + "question": "Provide the distance in meters separating the center of book (red point) and the center of chair (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001406/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1407, + "data_source": "SPAR-Bench", + "question": "How far apart are the centers of power sockets (red point) and stapler (blue point) in the image, measured in meters? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001407/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1408, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing keyboard and keyboard? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001408/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1409, + "data_source": "SPAR-Bench", + "question": "How far away, in meters, is the center of wardrobe (red point) from the center of cereal box (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001409/000.jpg" + ], + "data_type": "single_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1410, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of paper (red point) and pc (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001410/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1411, + "data_source": "SPAR-Bench", + "question": "Calculate the Euclidean distance between paper ram (red point) and box (blue point) at their centers, expressed in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001411/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1412, + "data_source": "SPAR-Bench", + "question": "What is the physical distance, in meters, from the center of helmet (red point) to the center of hammer (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001412/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1413, + "data_source": "SPAR-Bench", + "question": "What is the numeric distance, in meters, between the centers of the red and blue points representing trash can and structure? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_001413/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1414, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking computer tower and shelf? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001414/000.jpg" + ], + "data_type": "single_view", + "answer": "4.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1415, + "data_source": "SPAR-Bench", + "question": "What is the shortest distance in meters between the center of paper (red point) and the center of water kettle (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001415/000.jpg" + ], + "data_type": "single_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1416, + "data_source": "SPAR-Bench", + "question": "What is the shortest distance in meters between the center of kitchen brush (red point) and the center of dish drying rack (blue point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001416/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1417, + "data_source": "SPAR-Bench", + "question": "What is the numeric distance, in meters, between the centers of the red and blue points representing tap and bottle? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001417/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1418, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of chair (red point) and telephone (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001418/000.jpg" + ], + "data_type": "single_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1419, + "data_source": "SPAR-Bench", + "question": "What is the length of the straight line, in meters, connecting the centers of mouse (red point) and window frame (blue point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001419/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1420, + "data_source": "SPAR-Bench", + "question": "What is the length of the straight line, in meters, connecting the centers of cable socket (red point) and hole puncher (blue point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001420/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1421, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of split (red point) to monitor (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001421/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1422, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between desk lamp and office chair in the image? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001422/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1423, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of split (red point) from the center of light switch (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001423/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1424, + "data_source": "SPAR-Bench", + "question": "Can you calculate the Euclidean distance between the center of cardboard box (red point) and the center of cable tray (blue point) and provide it in meters? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001424/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1425, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters from the red point representing box to the blue point representing box? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001425/000.jpg" + ], + "data_type": "single_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1426, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of monitor (red point) and box (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001426/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1427, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of sofa (red point) and the center of box (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001427/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1428, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between dishwashing sponge and papers in the image? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001428/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1429, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing office chair and monitor? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001429/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1430, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of foldable closet (red point) and cabinet (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_001430/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1431, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters between kitchen towel (red point) and cheese (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001431/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1432, + "data_source": "SPAR-Bench", + "question": "Provide the distance in meters separating the center of monitor (red point) and the center of trash can (blue point) in the image. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001432/000.jpg" + ], + "data_type": "single_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1433, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of chair (red point) and the center of power socket (blue point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_001433/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1434, + "data_source": "SPAR-Bench", + "question": "What is the precise distance in meters from tube lights (red point) to board (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001434/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1435, + "data_source": "SPAR-Bench", + "question": "What is the gap in meters between the center of counter (red point) and the center of tray (blue point) in this image? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001435/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1436, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of kitchen cabinet (red point) and the center of structure (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001436/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1437, + "data_source": "SPAR-Bench", + "question": "In meters, what is the center-to-center Euclidean distance between mouse (red point) and heater (blue point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001437/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1438, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters from the red point representing hand soap dispenser to the blue point representing chair? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001438/000.jpg" + ], + "data_type": "single_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1439, + "data_source": "SPAR-Bench", + "question": "State the distance in meters from chair (red point) to chair (blue point), based on their centers. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_001439/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1440, + "data_source": "SPAR-Bench", + "question": "Calculate the Euclidean distance between computer tower (red point) and outlet (blue point) at their centers, expressed in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001440/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1441, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center spacing between fire extinguisher (red point) and chopping board (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001441/000.jpg" + ], + "data_type": "single_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1442, + "data_source": "SPAR-Bench", + "question": "How far in meters is picture (red point) from structure (blue point) based on their centers in the image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001442/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1443, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center spacing between table (red point) and bookshelf (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_001443/000.jpg" + ], + "data_type": "single_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1444, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between window and windowsill in the image? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001444/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1445, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters from the center of sofa (red point) to the center of bottle (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001445/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1446, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of electrical duct (red point) from the center of window frame (blue point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001446/000.jpg" + ], + "data_type": "single_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1447, + "data_source": "SPAR-Bench", + "question": "What is the precise distance in meters from table (red point) to cabinet (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001447/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1448, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of chair (red point) to the center of joined tables (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001448/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1449, + "data_source": "SPAR-Bench", + "question": "In meters, what is the calculated distance between the red and blue points representing sink and toilet flush button? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001449/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1450, + "data_source": "SPAR-Bench", + "question": "How far apart are the centers of SPLIT (red point) and bottle (blue point) in the image, measured in meters? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001450/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1451, + "data_source": "SPAR-Bench", + "question": "Please determine the center-to-center distance in meters between computer tower (red point) and computer tower (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001451/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1452, + "data_source": "SPAR-Bench", + "question": "In the image, how far in meters is the center of the red point from the blue point representing pen holder and pen holder? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001452/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1453, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between chair (red point) and window (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_001453/000.jpg" + ], + "data_type": "single_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1454, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of chair (red point) and window (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001454/000.jpg" + ], + "data_type": "single_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1455, + "data_source": "SPAR-Bench", + "question": "What is the length of the straight line, in meters, connecting the centers of computer tower (red point) and computer tower (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001455/000.jpg" + ], + "data_type": "single_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1456, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between sink (red point) and trash bin (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001456/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1457, + "data_source": "SPAR-Bench", + "question": "Calculate the Euclidean distance between bottle (red point) and cabinet (blue point) at their centers, expressed in meters. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001457/000.jpg" + ], + "data_type": "single_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1458, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center distance in meters between table (red point) and window frame (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001458/000.jpg" + ], + "data_type": "single_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1459, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of trash bin (red point) and power socket (blue point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001459/000.jpg" + ], + "data_type": "single_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1460, + "data_source": "SPAR-Bench", + "question": "State the Euclidean distance in meters from the center of pipe (red point) to the center of jerrycan (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001460/000.jpg" + ], + "data_type": "single_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1461, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of rolling chair (red point) and laptop (blue point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001461/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1462, + "data_source": "SPAR-Bench", + "question": "Can you calculate the Euclidean distance between the center of power socket (red point) and the center of chair (blue point) and provide it in meters? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001462/000.jpg" + ], + "data_type": "single_view", + "answer": "6.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1463, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters between paper ram (red point) and paper stapler (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001463/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1464, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of window sill (red point) and the center of joined tables (blue point). Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_001464/000.jpg" + ], + "data_type": "single_view", + "answer": "5.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1465, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of blackboard (red point) and the center of magazine rack (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_001465/000.jpg" + ], + "data_type": "single_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1466, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of board to the blue center of board in the image? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_001466/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1467, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing kitchen counter and cabinet? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001467/000.jpg" + ], + "data_type": "single_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1468, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center spacing between chair (red point) and chair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001468/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1469, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of windowsill and shelf? State the distance in meters. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_001469/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1470, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of printer (red point) to the center of phone (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001470/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1471, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between electrical duct (red point) and blinds (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001471/000.jpg" + ], + "data_type": "single_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1472, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of bottle (red point) and the center of bottles (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_001472/000.jpg" + ], + "data_type": "single_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1473, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of tv and chair? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_001473/000.jpg" + ], + "data_type": "single_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1474, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between window (red point) and table (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_001474/000.jpg" + ], + "data_type": "single_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1475, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of SPLIT (red point) to the center of electrical pipe (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_001475/000.jpg" + ], + "data_type": "single_view", + "answer": "4.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1476, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of picture (red point) from the center of refrigerator (blue point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001476/000.jpg" + ], + "data_type": "single_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1477, + "data_source": "SPAR-Bench", + "question": "How far away, in meters, is the center of picture (red point) from the center of reflection (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_001477/000.jpg" + ], + "data_type": "single_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1478, + "data_source": "SPAR-Bench", + "question": "State the Euclidean distance in meters from the center of board (red point) to the center of copier (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_001478/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1479, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of picture (red point) and kitchen object (blue point) in this image? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001479/000.jpg" + ], + "data_type": "single_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1480, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of chair and trash bin? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_001480/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1481, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the center of chair (red point) and the center of board (blue point) in the image? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_001481/000.jpg" + ], + "data_type": "single_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1482, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters from the center of shelf (red point) to the center of microwave (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001482/000.jpg" + ], + "data_type": "single_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1483, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of bath cabinet to the blue center of toilet paper in the image? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_001483/000.jpg" + ], + "data_type": "single_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1484, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of power socket (red point) and the center of power socket (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_001484/000.jpg" + ], + "data_type": "single_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1485, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is farther to chair (red point): chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001485/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1486, + "data_source": "SPAR-Bench", + "question": "Analyze the image and conclude whether desk (green point) or suitcase (blue point) is closer to trash can (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. suitcase (blue point)\nB. desk (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001486/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1487, + "data_source": "SPAR-Bench", + "question": "Relative to monitor (red point), which object lies closer, chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001487/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1488, + "data_source": "SPAR-Bench", + "question": "Analyze the image and decide whether refrigerator (green point) or kitchen cabinet (blue point) is closer to the center of refrigerator (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. kitchen cabinet (blue point)\nB. refrigerator (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001488/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1489, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is closer to lamp (red point): bed (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. cabinet (blue point)\nB. bed (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001489/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1490, + "data_source": "SPAR-Bench", + "question": "From the image, decide whether the green point (towel) or blue point (towel) is farther to trash can (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. towel (blue point)\nB. towel (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001490/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1491, + "data_source": "SPAR-Bench", + "question": "Which point, monitor (green point) or keyboard (blue point), is located closer to book (red point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. monitor (green point)\nB. keyboard (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001491/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1492, + "data_source": "SPAR-Bench", + "question": "From lamp (red point), is chair (green point) or window (blue point) situated at a closer distance? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. chair (green point)\nB. window (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001492/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1493, + "data_source": "SPAR-Bench", + "question": "Looking at the positions of toilet (red point), sink (green point), and toilet paper (blue point), which is farther to toilet? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. toilet paper (blue point)\nB. sink (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001493/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1494, + "data_source": "SPAR-Bench", + "question": "Which object has a farther proximity to the red point computer tower: chair (green point) or file cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. chair (green point)\nB. file cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001494/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1495, + "data_source": "SPAR-Bench", + "question": "From chair (red point), is chair (green point) or projector screen (blue point) situated at a farther distance? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. chair (green point)\nB. projector screen (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001495/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1496, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is farther to chair (red point): book (green point) or bowl (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. book (green point)\nB. bowl (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001496/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1497, + "data_source": "SPAR-Bench", + "question": "Based on the image, is trash can (green point) or backpack (blue point) closer to divider (red point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. backpack (blue point)\nB. trash can (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001497/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1498, + "data_source": "SPAR-Bench", + "question": "Identify the object that is spatially farther to stair rail (red point): the green pointbottle or the blue pointcabinet. Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. bottle (green point)\nB. cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001498/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1499, + "data_source": "SPAR-Bench", + "question": "In the image, which is farther to the center of shelf (red point): power outlet (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. power outlet (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001499/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1500, + "data_source": "SPAR-Bench", + "question": "Which object appears to be closer to chair (red point) in the image, chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001500/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1501, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies closer to folded chair (red point): table (green point) or trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. table (green point)\nB. trash can (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001501/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1502, + "data_source": "SPAR-Bench", + "question": "Analyze the image and decide whether bottle (green point) or box (blue point) is closer to the center of bottle (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. box (blue point)\nB. bottle (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001502/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1503, + "data_source": "SPAR-Bench", + "question": "Compare the positions of chair (green point) and chair (blue point). Which is closer to the bag (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001503/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1504, + "data_source": "SPAR-Bench", + "question": "For the points labeled shelf (green point), and clothes (blue point), determine which is farther to box (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. shelf (green point)\nB. clothes (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001504/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1505, + "data_source": "SPAR-Bench", + "question": "Which point, green point (desk) or blue point (picture), is closer to tv (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. picture (blue point)\nB. desk (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001505/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1506, + "data_source": "SPAR-Bench", + "question": "Relative to box (red point), which object lies farther, shelf (green point) or trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. shelf (green point)\nB. trash can (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001506/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1507, + "data_source": "SPAR-Bench", + "question": "Of the two objects, toilet (green point) and rail (blue point), which is closer to toilet paper dispenser (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. toilet (green point)\nB. rail (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001507/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1508, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is table (green point) or window (blue point) closer to box (red point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. window (blue point)\nB. table (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001508/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1509, + "data_source": "SPAR-Bench", + "question": "Which object has a closer proximity to the red point vacuum cleaner: chair (green point) or window (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. chair (green point)\nB. window (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001509/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1510, + "data_source": "SPAR-Bench", + "question": "Which of the two points, table (green point) or curtain (blue point), is farther from pillow (red point) in the image? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. curtain (blue point)\nB. table (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001510/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1511, + "data_source": "SPAR-Bench", + "question": "From the image, decide whether the green point (mattress) or blue point (table) is closer to chair (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. table (blue point)\nB. mattress (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001511/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1512, + "data_source": "SPAR-Bench", + "question": "Looking at the positions of shelf (red point), laptop (green point), and printer (blue point), which is farther to shelf? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. laptop (green point)\nB. printer (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001512/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1513, + "data_source": "SPAR-Bench", + "question": "Between bathtub (green point) and towel (blue point), which is positioned closer to mat (red point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. bathtub (green point)\nB. towel (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001513/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1514, + "data_source": "SPAR-Bench", + "question": "Which object appears to be farther to laundry detergent (red point) in the image, laundry basket (green point) or clothes dryers (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. laundry basket (green point)\nB. clothes dryers (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001514/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1515, + "data_source": "SPAR-Bench", + "question": "From plant (red point), is pillow (green point) or plant (blue point) situated at a farther distance? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. pillow (green point)\nB. plant (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001515/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1516, + "data_source": "SPAR-Bench", + "question": "Analyze the image and conclude whether chair (green point) or book (blue point) is farther to chair (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. book (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001516/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1517, + "data_source": "SPAR-Bench", + "question": "Which object appears to be closer to trash bin (red point) in the image, window (green point) or paper towel dispenser (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. window (green point)\nB. paper towel dispenser (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001517/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1518, + "data_source": "SPAR-Bench", + "question": "Looking at whiteboard (red point), chair (green point), and chair (blue point), which is closer to whiteboard (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001518/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1519, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (refrigerator) or the blue point (kitchen cabinet) is closer to sink (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. kitchen cabinet (blue point)\nB. refrigerator (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001519/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1520, + "data_source": "SPAR-Bench", + "question": "Between chair (green point) and chair (blue point), which object is positioned farther to chair (red point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001520/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1521, + "data_source": "SPAR-Bench", + "question": "In relation to shelf (red point), which of the two objects is farther: curtain (green point) or box (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. curtain (green point)\nB. box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001521/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1522, + "data_source": "SPAR-Bench", + "question": "Which object is spatially farther to soap dish (red point): towel (green point) or towel (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. towel (green point)\nB. towel (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001522/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1523, + "data_source": "SPAR-Bench", + "question": "For the points labeled chair (green point), and chair (blue point), determine which is closer to chair (red point). Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001523/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1524, + "data_source": "SPAR-Bench", + "question": "Looking at shelf (red point), trash can (green point), and cart (blue point), which is farther to shelf (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. cart (blue point)\nB. trash can (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001524/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1525, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is farther to vacuum cleaner (red point): table (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. chair (blue point)\nB. table (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001525/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1526, + "data_source": "SPAR-Bench", + "question": "Between kitchen cabinets (green point) and oven (blue point), which is positioned farther to refrigerator (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. oven (blue point)\nB. kitchen cabinets (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001526/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1527, + "data_source": "SPAR-Bench", + "question": "Which object appears to be farther to lamp (red point) in the image, picture (green point) or ledge (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. ledge (blue point)\nB. picture (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001527/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1528, + "data_source": "SPAR-Bench", + "question": "In the provided image, which is closer to microwave (red point): oven (green point) or sign (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. oven (green point)\nB. sign (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001528/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1529, + "data_source": "SPAR-Bench", + "question": "In this comparison, is chair (green point) or chair (blue point) closer to the red point, chair? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001529/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1530, + "data_source": "SPAR-Bench", + "question": "In the context of the image, which point is closer to the center of sink (red point): bathroom stall door (green point) or window (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. window (blue point)\nB. bathroom stall door (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001530/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1531, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if backpack (green point) or backpack (blue point) is closer to couch (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. backpack (green point)\nB. backpack (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001531/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1532, + "data_source": "SPAR-Bench", + "question": "From the image, decide whether the green point (trash can) or blue point (desk) is farther to suitcase (red point). Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. trash can (green point)\nB. desk (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001532/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1533, + "data_source": "SPAR-Bench", + "question": "From the perspective of monitor (red point), which object is closer, shelf (green point) or backpack (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. shelf (green point)\nB. backpack (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001533/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1534, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of desk (red point), pillow (green point), and monitor (blue point). Which is closer to the center of desk (red point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. monitor (blue point)\nB. pillow (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001534/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1535, + "data_source": "SPAR-Bench", + "question": "Between cabinet (green point) and book (blue point), which object is positioned farther to shelf (red point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. cabinet (green point)\nB. book (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001535/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1536, + "data_source": "SPAR-Bench", + "question": "Which object lies at a farther distance from couch (red point): armchair (green point) or coffee table (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. armchair (green point)\nB. coffee table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001536/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1537, + "data_source": "SPAR-Bench", + "question": "Looking at the image, identify whether table (green point) or chair (blue point) is closer to the center of table (red point). Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. chair (blue point)\nB. table (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001537/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1538, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the image. Is pillow (green point) or chair (blue point) positioned closer to chair (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. pillow (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001538/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1539, + "data_source": "SPAR-Bench", + "question": "Based on the image, is cup (green point) or cabinet (blue point) farther to monitor (red point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. cabinet (blue point)\nB. cup (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001539/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1540, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, shelf (green point) or bottle (blue point), lies closer to the stair rail (red point) in the image? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. shelf (green point)\nB. bottle (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001540/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1541, + "data_source": "SPAR-Bench", + "question": "In the image, which object is closer to paper towel roll (red point): water pitcher (green point) or kitchen cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. water pitcher (green point)\nB. kitchen cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001541/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1542, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, book (green point) or shoe rack (blue point), is farther to couch (red point) based on the image? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. book (green point)\nB. shoe rack (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001542/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1543, + "data_source": "SPAR-Bench", + "question": "Which object has a closer proximity to the red point pillow: pillow (green point) or nightstand (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. nightstand (blue point)\nB. pillow (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001543/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1544, + "data_source": "SPAR-Bench", + "question": "Looking at the positions of lamp (red point), tissue box (green point), and storage bin (blue point), which is farther to lamp? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. tissue box (green point)\nB. storage bin (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001544/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1545, + "data_source": "SPAR-Bench", + "question": "Compare the positions of pillow (green point) and chair (blue point). Which is closer to the board (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. chair (blue point)\nB. pillow (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001545/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1546, + "data_source": "SPAR-Bench", + "question": "In the visual provided, which object is closer to toilet seat cover dispenser (red point): toilet (green point) or window (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. toilet (green point)\nB. window (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001546/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1547, + "data_source": "SPAR-Bench", + "question": "From the center of chair (red point), which object, chair (green point) or monitor (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. chair (green point)\nB. monitor (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001547/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1548, + "data_source": "SPAR-Bench", + "question": "Which object is spatially closer to chair (red point): chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001548/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1549, + "data_source": "SPAR-Bench", + "question": "Identify the object that is closer to the red point towel (red point): trash can (green point) (green) or soap dish (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. trash can (green point)\nB. soap dish (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001549/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1550, + "data_source": "SPAR-Bench", + "question": "Which point is located closer from dish rack (red point) in the image: soda stream (green point) or picture (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. picture (blue point)\nB. soda stream (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001550/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1551, + "data_source": "SPAR-Bench", + "question": "Which object has a closer proximity to the red point chair: chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001551/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1552, + "data_source": "SPAR-Bench", + "question": "From the center of sofa chair (red point), which object, ottoman (green point) or coffee table (blue point), is farther? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. ottoman (green point)\nB. coffee table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001552/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1553, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of bookshelf (red point), window (green point), and chair (blue point). Which is farther to the center of bookshelf (red point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. window (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001553/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1554, + "data_source": "SPAR-Bench", + "question": "Between chair (green point) and chair (blue point), which is positioned farther to chair (red point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001554/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1555, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (clothing) or the blue point (pillow) is closer to backpack (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. clothing (green point)\nB. pillow (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001555/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1556, + "data_source": "SPAR-Bench", + "question": "From desk (red point), is suitcase (green point) or shoes (blue point) situated at a farther distance? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. shoes (blue point)\nB. suitcase (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001556/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1557, + "data_source": "SPAR-Bench", + "question": "Which object lies at a farther distance from toilet (red point): toilet paper (green point) or toilet paper (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. toilet paper (blue point)\nB. toilet paper (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001557/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1558, + "data_source": "SPAR-Bench", + "question": "In the context of the image, which point is closer to the center of armchair (red point): armchair (green point) or armchair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. armchair (blue point)\nB. armchair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001558/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1559, + "data_source": "SPAR-Bench", + "question": "In the image, which object is farther to office chair (red point): office chair (green point) or office chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. office chair (green point)\nB. office chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001559/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1560, + "data_source": "SPAR-Bench", + "question": "Which object is spatially closer to end table (red point): couch (green point) or coffee table (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. couch (green point)\nB. coffee table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001560/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1561, + "data_source": "SPAR-Bench", + "question": "Identify the object that is closer to the red point cabinet (red point): rail (green point) (green) or shelf (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. shelf (blue point)\nB. rail (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001561/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1562, + "data_source": "SPAR-Bench", + "question": "Which point is located closer from shelf (red point) in the image: whiteboard (green point) or monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. whiteboard (green point)\nB. monitor (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001562/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1563, + "data_source": "SPAR-Bench", + "question": "From the center of light (red point), which object, pillow (green point) or table (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. pillow (green point)\nB. table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001563/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1564, + "data_source": "SPAR-Bench", + "question": "In the image, which is farther to the center of monitor (red point): chair (green point) or bookshelf (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. chair (green point)\nB. bookshelf (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001564/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1565, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the image. Is cabinet (green point) or chair (blue point) positioned closer to chair (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. chair (blue point)\nB. cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001565/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1566, + "data_source": "SPAR-Bench", + "question": "Which object is spatially farther to plant (red point): bag (green point) or case of water bottles (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. case of water bottles (blue point)\nB. bag (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001566/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1567, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if chair (green point) or hamper (blue point) is closer to backpack (red point). Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. hamper (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001567/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1568, + "data_source": "SPAR-Bench", + "question": "Looking at chair (red point), chair (green point), and chair (blue point), which is closer to chair (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001568/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1569, + "data_source": "SPAR-Bench", + "question": "Compare the positions of toilet paper (green point) and shower curtain (blue point). Which is farther to the radiator (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. toilet paper (green point)\nB. shower curtain (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001569/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1570, + "data_source": "SPAR-Bench", + "question": "Considering the reference books (red point), which object, books (green point) or books (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. books (green point)\nB. books (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001570/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1571, + "data_source": "SPAR-Bench", + "question": "Analyze the image and conclude whether curtain (green point) or curtain (blue point) is closer to mirror (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. curtain (blue point)\nB. curtain (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001571/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1572, + "data_source": "SPAR-Bench", + "question": "From the perspective of bar (red point), which object is closer, soap dispenser (green point) or mirror (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. soap dispenser (green point)\nB. mirror (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001572/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1573, + "data_source": "SPAR-Bench", + "question": "Looking at the image, identify whether paper towel roll (green point) or bed (blue point) is closer to the center of suitcase (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. paper towel roll (green point)\nB. bed (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001573/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1574, + "data_source": "SPAR-Bench", + "question": "Determine the object that is farther to handrail (red point): toilet (green point) or trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. toilet (green point)\nB. trash can (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001574/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1575, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is closer to table (red point): table (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. table (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001575/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1576, + "data_source": "SPAR-Bench", + "question": "In the displayed image, which object is farther to lamp (red point): pillow (green point) or dresser (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. pillow (green point)\nB. dresser (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001576/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1577, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if display case (green point) or chair (blue point) is farther to chair (red point). Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. display case (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001577/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1578, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the image. Is armchair (green point) or chair (blue point) positioned closer to chair (red point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. armchair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001578/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1579, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is farther to office chair (red point): office chair (green point) or office chair (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. office chair (blue point)\nB. office chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001579/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1580, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if cup (green point) or shelf (blue point) is farther to file cabinet (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. cup (green point)\nB. shelf (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001580/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1581, + "data_source": "SPAR-Bench", + "question": "From the perspective of handicap bar (red point), which object is closer, toilet paper dispenser (green point) or toilet (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. toilet paper dispenser (green point)\nB. toilet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001581/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1582, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is box (green point) or office chair (blue point) closer to office chair (red point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. box (green point)\nB. office chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001582/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1583, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if chair (green point) or office chair (blue point) is closer to chair (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. office chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001583/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1584, + "data_source": "SPAR-Bench", + "question": "From chair (red point), is chair (green point) or office chair (blue point) situated at a farther distance? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. office chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001584/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1585, + "data_source": "SPAR-Bench", + "question": "Between keyboard (green point) and office chair (blue point), which object is positioned farther to monitor (red point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. office chair (blue point)\nB. keyboard (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001585/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1586, + "data_source": "SPAR-Bench", + "question": "In the image, which is farther to the center of sink (red point): trash can (green point) or trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. trash can (green point)\nB. trash can (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001586/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1587, + "data_source": "SPAR-Bench", + "question": "Which object is spatially closer to chair (red point): chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001587/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1588, + "data_source": "SPAR-Bench", + "question": "From monitor (red point), is computer tower (green point) or telephone (blue point) situated at a farther distance? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. computer tower (green point)\nB. telephone (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001588/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1589, + "data_source": "SPAR-Bench", + "question": "Between cabinet (green point) and monitor (blue point), which is positioned closer to telephone (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. cabinet (green point)\nB. monitor (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001589/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1590, + "data_source": "SPAR-Bench", + "question": "In this comparison, is laptop (green point) or bed (blue point) closer to the red point, paper towel roll? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. bed (blue point)\nB. laptop (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001590/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1591, + "data_source": "SPAR-Bench", + "question": "Between chair (green point) and chair (blue point), which object is positioned farther to couch (red point)? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001591/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1592, + "data_source": "SPAR-Bench", + "question": "Which of the two points, armchair (green point) or coffee table (blue point), is closer from armchair (red point) in the image? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. armchair (green point)\nB. coffee table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001592/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1593, + "data_source": "SPAR-Bench", + "question": "Which point, book (green point) or book (blue point), is located farther to book (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. book (blue point)\nB. book (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001593/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1594, + "data_source": "SPAR-Bench", + "question": "Based on the image, is office chair (green point) or office chair (blue point) closer to tv (red point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. office chair (blue point)\nB. office chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001594/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1595, + "data_source": "SPAR-Bench", + "question": "In relation to chair (red point), which of the two objects is farther: cabinet (green point) or shelf (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. cabinet (green point)\nB. shelf (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001595/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1596, + "data_source": "SPAR-Bench", + "question": "Analyze the image and decide whether box (green point) or file cabinet (blue point) is farther to the center of divider (red point). Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. file cabinet (blue point)\nB. box (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001596/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1597, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of mattress (red point), chair (green point), and table (blue point). Which is closer to the center of mattress (red point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. chair (green point)\nB. table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001597/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1598, + "data_source": "SPAR-Bench", + "question": "In this comparison, is recycling bin (green point) or lamp (blue point) farther to the red point, mirror? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. lamp (blue point)\nB. recycling bin (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001598/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1599, + "data_source": "SPAR-Bench", + "question": "In the image, which object is closer to tv (red point): office chair (green point) or office chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. office chair (green point)\nB. office chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001599/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1600, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is farther to nightstand (red point): pillow (green point) or picture (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. pillow (green point)\nB. picture (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001600/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1601, + "data_source": "SPAR-Bench", + "question": "Determine the object that is farther to box (red point): picture (green point) or open kitchen cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. picture (green point)\nB. open kitchen cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001601/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1602, + "data_source": "SPAR-Bench", + "question": "Relative to toilet (red point), which object lies farther, toilet paper holder (green point) or handrail (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. handrail (blue point)\nB. toilet paper holder (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001602/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1603, + "data_source": "SPAR-Bench", + "question": "Considering distances to monitor (red point), which object is farther: jacket (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. cabinet (blue point)\nB. jacket (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001603/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1604, + "data_source": "SPAR-Bench", + "question": "Analyze the image and decide whether cup (green point) or kitchen cabinets (blue point) is closer to the center of paper towel dispenser (red point). Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. cup (green point)\nB. kitchen cabinets (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001604/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1605, + "data_source": "SPAR-Bench", + "question": "From the center of monitor (red point), which object, shelf (green point) or chair (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. shelf (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001605/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1606, + "data_source": "SPAR-Bench", + "question": "Which object is spatially closer to desk (red point): tissue box (green point) or box (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. box (blue point)\nB. tissue box (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001606/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1607, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if range hood (green point) or coffee maker (blue point) is closer to box (red point). Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. range hood (green point)\nB. coffee maker (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001607/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1608, + "data_source": "SPAR-Bench", + "question": "From chair (red point), is chair (green point) or chair (blue point) situated at a closer distance? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001608/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1609, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if chair (green point) or chair (blue point) is closer to window (red point). Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001609/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1610, + "data_source": "SPAR-Bench", + "question": "From the image, decide whether the green point (armchair) or blue point (headphones) is farther to radiator (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. armchair (green point)\nB. headphones (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001610/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1611, + "data_source": "SPAR-Bench", + "question": "From the image, decide whether the green point (trash can) or blue point (chair) is farther to chair (red point). Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. trash can (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001611/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1612, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the image. Is chair (green point) or table (blue point) positioned farther to backpack (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. chair (green point)\nB. table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001612/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1613, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies farther to lamp (red point): curtain (green point) or ledge (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. curtain (green point)\nB. ledge (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001613/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1614, + "data_source": "SPAR-Bench", + "question": "Which point, chair (green point) or chair (blue point), is located closer to chair (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001614/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1615, + "data_source": "SPAR-Bench", + "question": "Analyze the image and decide whether end table (green point) or couch (blue point) is farther to the center of coffee table (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. end table (green point)\nB. couch (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001615/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1616, + "data_source": "SPAR-Bench", + "question": "For the points labeled cabinet (green point), and couch (blue point), determine which is farther to clothing (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. cabinet (green point)\nB. couch (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001616/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1617, + "data_source": "SPAR-Bench", + "question": "Which point is located closer from shower curtain (red point) in the image: bottle (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. bottle (green point)\nB. cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001617/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1618, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is closer to table (red point): vacuum cleaner (green point) or toilet (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. vacuum cleaner (green point)\nB. toilet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001618/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1619, + "data_source": "SPAR-Bench", + "question": "Identify the object that is spatially closer to armchair (red point): the green pointcoffee table or the blue pointarmchair. Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. armchair (blue point)\nB. coffee table (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001619/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1620, + "data_source": "SPAR-Bench", + "question": "In relation to lamp (red point), which of the two objects is closer: chair (green point) or picture (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. picture (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001620/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1621, + "data_source": "SPAR-Bench", + "question": "In the image, which object is closer to trash can (red point): chair (green point) or trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. chair (green point)\nB. trash can (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001621/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1622, + "data_source": "SPAR-Bench", + "question": "Which object has a closer proximity to the red point chair: chair (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. cabinet (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001622/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1623, + "data_source": "SPAR-Bench", + "question": "Which point is located closer from chair (red point) in the image: chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001623/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1624, + "data_source": "SPAR-Bench", + "question": "Relative to bottle (red point), which object lies closer, box (green point) or bottle (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. box (green point)\nB. bottle (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001624/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1625, + "data_source": "SPAR-Bench", + "question": "From the center of trash can (red point), which object, mini fridge (green point) or bottle (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. mini fridge (green point)\nB. bottle (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001625/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1626, + "data_source": "SPAR-Bench", + "question": "Identify the object that is farther to the red point whiteboard (red point): desk (green point) (green) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. chair (blue point)\nB. desk (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001626/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1627, + "data_source": "SPAR-Bench", + "question": "In the image, which is farther to the center of chair (red point): cabinet (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. chair (blue point)\nB. cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001627/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1628, + "data_source": "SPAR-Bench", + "question": "From the image, decide whether the green point (pillow) or blue point (monitor) is closer to chair (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. pillow (green point)\nB. monitor (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001628/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1629, + "data_source": "SPAR-Bench", + "question": "From the image, decide whether the green point (coffee table) or blue point (couch) is closer to couch (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. coffee table (green point)\nB. couch (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001629/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1630, + "data_source": "SPAR-Bench", + "question": "From trash can (red point), is printer (green point) or cabinets (blue point) situated at a closer distance? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. printer (green point)\nB. cabinets (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001630/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1631, + "data_source": "SPAR-Bench", + "question": "In the displayed image, which object is farther to rail (red point): toilet paper rolls (green point) or jacket (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. toilet paper rolls (green point)\nB. jacket (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001631/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1632, + "data_source": "SPAR-Bench", + "question": "Relative to chair (red point), which object lies closer, chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001632/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1633, + "data_source": "SPAR-Bench", + "question": "Considering the reference bin (red point), which object, case of water bottles (green point) or bag (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. case of water bottles (green point)\nB. bag (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001633/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1634, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, stool (green point) or ping pong table (blue point), lies closer to the couch (red point) in the image? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. ping pong table (blue point)\nB. stool (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001634/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1635, + "data_source": "SPAR-Bench", + "question": "Determine the object that is closer to books (red point): books (green point) or books (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. books (blue point)\nB. books (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001635/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1636, + "data_source": "SPAR-Bench", + "question": "Considering the reference books (red point), which object, books (green point) or books (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. books (blue point)\nB. books (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001636/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1637, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the image. Is ledge (green point) or soap dish (blue point) positioned farther to tissue box (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. soap dish (blue point)\nB. ledge (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001637/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1638, + "data_source": "SPAR-Bench", + "question": "Between the green point window and blue points window, which lies farther to the red point tissue box? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. window (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001638/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1639, + "data_source": "SPAR-Bench", + "question": "Which of the two points, paper towel dispenser (green point) or telephone (blue point), is closer from trash can (red point) in the image? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. telephone (blue point)\nB. paper towel dispenser (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001639/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1640, + "data_source": "SPAR-Bench", + "question": "Determine which object, toilet paper rolls (green point) or trash can (blue point), is positioned farther from jacket (red point) in the image. Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. toilet paper rolls (green point)\nB. trash can (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001640/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1641, + "data_source": "SPAR-Bench", + "question": "Which object lies at a closer distance from stool (red point): recycling bin (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. recycling bin (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001641/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1642, + "data_source": "SPAR-Bench", + "question": "Which object has a farther proximity to the red point chair: chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001642/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1643, + "data_source": "SPAR-Bench", + "question": "Based on the image, is kitchen cabinets (green point) or soap dispenser (blue point) closer to microwave (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. kitchen cabinets (green point)\nB. soap dispenser (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001643/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1644, + "data_source": "SPAR-Bench", + "question": "For the points labeled toilet paper dispenser (green point), and toilet seat cover dispenser (blue point), determine which is closer to toilet (red point). Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. toilet seat cover dispenser (blue point)\nB. toilet paper dispenser (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001644/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1645, + "data_source": "SPAR-Bench", + "question": "In the context of the image, which point is farther to the center of couch (red point): chair (green point) or stool (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. stool (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001645/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1646, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, mattress (green point) or chair (blue point), lies farther to the end table (red point) in the image? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. chair (blue point)\nB. mattress (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001646/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1647, + "data_source": "SPAR-Bench", + "question": "Of the two objects, cabinet (green point) and couch (blue point), which is farther to clothing (red point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. couch (blue point)\nB. cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001647/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1648, + "data_source": "SPAR-Bench", + "question": "In the image, which is closer to the center of chair (red point): office chair (green point) or office chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. office chair (blue point)\nB. office chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001648/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1649, + "data_source": "SPAR-Bench", + "question": "In this comparison, is table (green point) or cabinet (blue point) farther to the red point, table? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. table (green point)\nB. cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001649/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1650, + "data_source": "SPAR-Bench", + "question": "From the image, decide whether the green point (chair) or blue point (chair) is closer to chair (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001650/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1651, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (soda stream) or the blue point (coffee kettle) is closer to paper towel roll (red point). Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. coffee kettle (blue point)\nB. soda stream (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001651/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1652, + "data_source": "SPAR-Bench", + "question": "In the context of the image, which point is farther to the center of bookshelf (red point): window (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. cabinet (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001652/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1653, + "data_source": "SPAR-Bench", + "question": "From backpack (red point), is pillow (green point) or pillow (blue point) situated at a farther distance? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. pillow (blue point)\nB. pillow (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001653/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1654, + "data_source": "SPAR-Bench", + "question": "For the points labeled papers (green point), and bar stool (blue point), determine which is closer to stool (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. bar stool (blue point)\nB. papers (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001654/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1655, + "data_source": "SPAR-Bench", + "question": "Considering the reference paper ram (red point), which object, power socket (green point) or box (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. power socket (green point)\nB. box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001655/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1656, + "data_source": "SPAR-Bench", + "question": "Identify the object that is spatially closer to monitor (red point): the green pointpicture or the blue pointmouse pad. Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. picture (green point)\nB. mouse pad (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001656/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1657, + "data_source": "SPAR-Bench", + "question": "Determine the object that is closer to box (red point): whiteboard eraser (green point) or blinds (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. whiteboard eraser (green point)\nB. blinds (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001657/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1658, + "data_source": "SPAR-Bench", + "question": "Which point, heater (green point) or window sill (blue point), is located closer to lan (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. window sill (blue point)\nB. heater (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001658/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1659, + "data_source": "SPAR-Bench", + "question": "Looking at the image, identify whether paper (green point) or paper (blue point) is closer to the center of paper (red point). Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. paper (green point)\nB. paper (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001659/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1660, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is shower curtain (green point) or bathroom cabinet (blue point) closer to tap (red point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. shower curtain (green point)\nB. bathroom cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001660/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1661, + "data_source": "SPAR-Bench", + "question": "In the context of the image, which point is farther to the center of copier (red point): power socket (green point) or box (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. power socket (green point)\nB. box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001661/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1662, + "data_source": "SPAR-Bench", + "question": "In the provided image, which is closer to whiteboard (red point): chair (green point) or sink (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. chair (green point)\nB. sink (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001662/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1663, + "data_source": "SPAR-Bench", + "question": "Analyze the image and decide whether shaving foam (green point) or shower faucet (blue point) is farther to the center of sink (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. shower faucet (blue point)\nB. shaving foam (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001663/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1664, + "data_source": "SPAR-Bench", + "question": "In the displayed image, which object is closer to box (red point): power socket (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. chair (blue point)\nB. power socket (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001664/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1665, + "data_source": "SPAR-Bench", + "question": "In relation to cabinet (red point), which of the two objects is farther: pipe (green point) or laboratory bench (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. pipe (green point)\nB. laboratory bench (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001665/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1666, + "data_source": "SPAR-Bench", + "question": "Which object appears to be farther to bookshelf (red point) in the image, book (green point) or book (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. book (blue point)\nB. book (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001666/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1667, + "data_source": "SPAR-Bench", + "question": "Between box (green point) and reflection (blue point), which is positioned closer to reflection (red point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. reflection (blue point)\nB. box (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001667/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1668, + "data_source": "SPAR-Bench", + "question": "Looking at the positions of razor (red point), cloth (green point), and bottle (blue point), which is farther to razor? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. bottle (blue point)\nB. cloth (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001668/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1669, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if shower head (green point) or shower tap (blue point) is closer to light switch (red point). Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. shower head (green point)\nB. shower tap (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001669/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1670, + "data_source": "SPAR-Bench", + "question": "Analyze the image and conclude whether disinfectant dispenser (green point) or box (blue point) is closer to paper (red point). Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. box (blue point)\nB. disinfectant dispenser (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001670/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1671, + "data_source": "SPAR-Bench", + "question": "Determine the object that is farther to structure (red point): sit-up pillow (green point) or monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. sit-up pillow (green point)\nB. monitor (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001671/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1672, + "data_source": "SPAR-Bench", + "question": "Looking at toilet brush (red point), light switch (green point), and trash bin (blue point), which is farther to toilet brush (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. trash bin (blue point)\nB. light switch (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001672/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1673, + "data_source": "SPAR-Bench", + "question": "Which point, green point (table) or blue point (chair), is closer to outlet (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. table (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001673/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1674, + "data_source": "SPAR-Bench", + "question": "From the red point outlet, which object, cabinet (green point) or computer tower (blue point), is farther? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. computer tower (blue point)\nB. cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001674/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1675, + "data_source": "SPAR-Bench", + "question": "Considering the reference pillar (red point), which object, whiteboard (green point) or projector (blue point), is farther? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. whiteboard (green point)\nB. projector (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001675/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1676, + "data_source": "SPAR-Bench", + "question": "Which point is located farther from paper (red point) in the image: power socket (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. power socket (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001676/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1677, + "data_source": "SPAR-Bench", + "question": "Based on the image, is window (green point) or jacket (blue point) farther to heater (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. jacket (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001677/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1678, + "data_source": "SPAR-Bench", + "question": "Which object has a farther proximity to the red point tv stand: chair (green point) or sofa (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. chair (green point)\nB. sofa (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001678/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1679, + "data_source": "SPAR-Bench", + "question": "In the displayed image, which object is farther to light switch (red point): jeans (green point) or towel warmer (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. towel warmer (blue point)\nB. jeans (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001679/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1680, + "data_source": "SPAR-Bench", + "question": "Which object is spatially closer to electrical duct (red point): tools (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. cabinet (blue point)\nB. tools (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001680/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1681, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if heater (green point) or whiteboard (blue point) is closer to window sill (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. whiteboard (blue point)\nB. heater (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001681/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1682, + "data_source": "SPAR-Bench", + "question": "In the image, which is closer to the center of light switch (red point): power socket (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. cabinet (blue point)\nB. power socket (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001682/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1683, + "data_source": "SPAR-Bench", + "question": "Which object has a closer proximity to the red point trash bin: clothes (green point) or broom (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. clothes (green point)\nB. broom (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001683/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1684, + "data_source": "SPAR-Bench", + "question": "Analyze the image and conclude whether monitor (green point) or structure (blue point) is closer to table (red point). Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. structure (blue point)\nB. monitor (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001684/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1685, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (duffle bag) or the blue point (table) is closer to window (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. table (blue point)\nB. duffle bag (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001685/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1686, + "data_source": "SPAR-Bench", + "question": "In the image, which object is farther to blinds (red point): cabinet (green point) or soap bottle (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. cabinet (green point)\nB. soap bottle (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001686/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1687, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the image. Is power socket (green point) or cabinet (blue point) positioned closer to switch (red point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. cabinet (blue point)\nB. power socket (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001687/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1688, + "data_source": "SPAR-Bench", + "question": "In the displayed image, which object is closer to bluetooth speaker (red point): mouse (green point) or office chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. office chair (blue point)\nB. mouse (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001688/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1689, + "data_source": "SPAR-Bench", + "question": "Which of the two points, chair (green point) or book (blue point), is closer from picture (red point) in the image? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. book (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001689/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1690, + "data_source": "SPAR-Bench", + "question": "Between the green point box and blue points box, which lies closer to the red point box? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. box (blue point)\nB. box (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001690/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1691, + "data_source": "SPAR-Bench", + "question": "Which point, power sockets (green point) or power sockets (blue point), is located closer to light switch (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. power sockets (green point)\nB. power sockets (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001691/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1692, + "data_source": "SPAR-Bench", + "question": "Which of the two points, trousers (green point) or pants (blue point), is farther from towel warmer (red point) in the image? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. trousers (green point)\nB. pants (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001692/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1693, + "data_source": "SPAR-Bench", + "question": "From the image, decide whether the green point (cardboard box) or blue point (cardboard box) is closer to cardboard box (red point). Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. cardboard box (blue point)\nB. cardboard box (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001693/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1694, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies farther to window sill (red point): whiteboard (green point) or monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. whiteboard (green point)\nB. monitor (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001694/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1695, + "data_source": "SPAR-Bench", + "question": "Looking at the positions of paper (red point), paper (green point), and package (blue point), which is farther to paper? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. package (blue point)\nB. paper (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001695/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1696, + "data_source": "SPAR-Bench", + "question": "Which object has a closer proximity to the red point chair: chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001696/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1697, + "data_source": "SPAR-Bench", + "question": "Identify the object that is closer to the red point toilet (red point): toilet brush (green point) (green) or trousers (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. toilet brush (green point)\nB. trousers (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001697/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1698, + "data_source": "SPAR-Bench", + "question": "In relation to box (red point), which of the two objects is farther: trash bin (green point) or box (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. trash bin (green point)\nB. box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001698/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1699, + "data_source": "SPAR-Bench", + "question": "Considering the reference box (red point), which object, trash bin (green point) or box (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. trash bin (green point)\nB. box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001699/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1700, + "data_source": "SPAR-Bench", + "question": "Looking at the positions of picture (red point), bookshelf (green point), and bicycle (blue point), which is closer to picture? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. bookshelf (green point)\nB. bicycle (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001700/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1701, + "data_source": "SPAR-Bench", + "question": "Which object lies at a farther distance from bucket (red point): storage cabinet (green point) or office chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. office chair (blue point)\nB. storage cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001701/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1702, + "data_source": "SPAR-Bench", + "question": "In relation to bed (red point), which of the two objects is farther: beanbag (green point) or backpack (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. beanbag (green point)\nB. backpack (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001702/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1703, + "data_source": "SPAR-Bench", + "question": "Which object has a farther proximity to the red point reflection: picture (green point) or structure (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. picture (green point)\nB. structure (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001703/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1704, + "data_source": "SPAR-Bench", + "question": "Looking at the positions of plate (red point), whiteboard (green point), and paper bag (blue point), which is farther to plate? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. paper bag (blue point)\nB. whiteboard (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001704/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1705, + "data_source": "SPAR-Bench", + "question": "From the red point chair, which object, chair (green point) or chair (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001705/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1706, + "data_source": "SPAR-Bench", + "question": "Which point, green point (bathroom cabinet) or blue point (toothpaste), is closer to shower curtain (red point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. toothpaste (blue point)\nB. bathroom cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001706/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1707, + "data_source": "SPAR-Bench", + "question": "Between kitchen cabinet (green point) and light switch (blue point), which is positioned closer to power socket (red point)? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. light switch (blue point)\nB. kitchen cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001707/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1708, + "data_source": "SPAR-Bench", + "question": "Looking at the image, identify whether paper bag (green point) or bottle (blue point) is closer to the center of plate (red point). Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. paper bag (green point)\nB. bottle (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001708/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1709, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the image. Is blinds (green point) or light (blue point) positioned closer to ventilation (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. blinds (green point)\nB. light (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001709/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1710, + "data_source": "SPAR-Bench", + "question": "In the provided image, which is farther to power socket (red point): paper ram (green point) or box (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. paper ram (green point)\nB. box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001710/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1711, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of window frame (red point), computer tower (green point), and computer tower (blue point). Which is closer to the center of window frame (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. computer tower (blue point)\nB. computer tower (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001711/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1712, + "data_source": "SPAR-Bench", + "question": "From the perspective of window (red point), which object is closer, dining chair (green point) or bookshelf (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. bookshelf (blue point)\nB. dining chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001712/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1713, + "data_source": "SPAR-Bench", + "question": "From the center of table (red point), which object, monitor (green point) or picture (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. monitor (green point)\nB. picture (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001713/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1714, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, foldable closet (green point) or pillow (blue point), is farther to power socket (red point) based on the image? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. foldable closet (green point)\nB. pillow (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001714/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1715, + "data_source": "SPAR-Bench", + "question": "Of the two objects, dishwasher (green point) and kitchen cabinet (blue point), which is farther to structure (red point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. dishwasher (green point)\nB. kitchen cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001715/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1716, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, wooden brush (green point) or wooden brush (blue point), lies closer to the bar stool (red point) in the image? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. wooden brush (green point)\nB. wooden brush (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001716/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1717, + "data_source": "SPAR-Bench", + "question": "For the points labeled table (green point), and clock (blue point), determine which is farther to table (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. table (green point)\nB. clock (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001717/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1718, + "data_source": "SPAR-Bench", + "question": "Relative to desk lamp (red point), which object lies farther, bluetooth speaker (green point) or box (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. bluetooth speaker (green point)\nB. box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001718/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1719, + "data_source": "SPAR-Bench", + "question": "Determine which object, trash bin (green point) or kitchen cabinet (blue point), is positioned closer from kitchen cabinet (red point) in the image. Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. trash bin (green point)\nB. kitchen cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001719/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1720, + "data_source": "SPAR-Bench", + "question": "Between the green point chair and blue points sofa, which lies closer to the red point light switch? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. sofa (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001720/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1721, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies closer to storage cabinet (red point): cardboard box (green point) or cardboard box (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. cardboard box (green point)\nB. cardboard box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001721/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1722, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, chair (green point) or heater (blue point), lies farther to the window sill (red point) in the image? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. chair (green point)\nB. heater (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001722/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1723, + "data_source": "SPAR-Bench", + "question": "Determine the object that is closer to cabinet (red point): mirror (green point) or light (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. mirror (green point)\nB. light (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001723/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1724, + "data_source": "SPAR-Bench", + "question": "Considering the reference toilet (red point), which object, bed (green point) or picture (blue point), is farther? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. picture (blue point)\nB. bed (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001724/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1725, + "data_source": "SPAR-Bench", + "question": "From the center of outlet (red point), which object, vacuum cleaner (green point) or board (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. board (blue point)\nB. vacuum cleaner (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001725/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1726, + "data_source": "SPAR-Bench", + "question": "From the image, decide whether the green point (cup) or blue point (kitchen cabinet) is farther to sink (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. kitchen cabinet (blue point)\nB. cup (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001726/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1727, + "data_source": "SPAR-Bench", + "question": "Which object appears to be farther to office chair (red point) in the image, book (green point) or laptop (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. laptop (blue point)\nB. book (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001727/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1728, + "data_source": "SPAR-Bench", + "question": "From the center of whiteboard (red point), which object, chair (green point) or sofa (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. chair (green point)\nB. sofa (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001728/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1729, + "data_source": "SPAR-Bench", + "question": "Identify the object that is spatially farther to bath mat (red point): the green pointshower rug or the blue pointtowel. Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. towel (blue point)\nB. shower rug (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001729/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1730, + "data_source": "SPAR-Bench", + "question": "Identify the object that is farther to the red point window (red point): whiteboard (green point) (green) or decoration (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. decoration (blue point)\nB. whiteboard (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001730/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1731, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the image. Is stool (green point) or bar stool (blue point) positioned farther to papers (red point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. stool (green point)\nB. bar stool (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001731/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1732, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the image. Is soap bottle (green point) or towel (blue point) positioned closer to soap bottle (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. soap bottle (green point)\nB. towel (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001732/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1733, + "data_source": "SPAR-Bench", + "question": "Determine the object that is farther to power socket (red point): blackboard (green point) or speaker (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. blackboard (green point)\nB. speaker (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001733/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1734, + "data_source": "SPAR-Bench", + "question": "Which point, green point (bathroom cabinet) or blue point (shower curtain), is closer to toilet (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. shower curtain (blue point)\nB. bathroom cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001734/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1735, + "data_source": "SPAR-Bench", + "question": "Which of the two points, chair (green point) or window (blue point), is farther from sofa (red point) in the image? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. window (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001735/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1736, + "data_source": "SPAR-Bench", + "question": "In the image, which is farther to the center of chair (red point): pillow (green point) or sofa (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. sofa (blue point)\nB. pillow (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001736/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1737, + "data_source": "SPAR-Bench", + "question": "Of the two objects, sofa (green point) and table (blue point), which is closer to ottoman chair (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. table (blue point)\nB. sofa (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001737/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1738, + "data_source": "SPAR-Bench", + "question": "Which object appears to be farther to heater (red point) in the image, window (green point) or window sill (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. window sill (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001738/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1739, + "data_source": "SPAR-Bench", + "question": "Based on the image, is box (green point) or chair (blue point) closer to tv (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. box (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001739/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1740, + "data_source": "SPAR-Bench", + "question": "In the displayed image, which object is farther to clothes (red point): toilet (green point) or broom (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. broom (blue point)\nB. toilet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001740/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1741, + "data_source": "SPAR-Bench", + "question": "Looking at pillow (red point), picture (green point), and light switch (blue point), which is farther to pillow (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. light switch (blue point)\nB. picture (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001741/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1742, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is farther to chair (red point): water kettle (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. chair (blue point)\nB. water kettle (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001742/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1743, + "data_source": "SPAR-Bench", + "question": "In the provided image, which is farther to chair (red point): printer (green point) or bag (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. printer (green point)\nB. bag (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001743/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1744, + "data_source": "SPAR-Bench", + "question": "Which point, paper towel package (green point) or paper towel (blue point), is located farther to picture (red point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. paper towel package (green point)\nB. paper towel (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001744/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1745, + "data_source": "SPAR-Bench", + "question": "In relation to keyboard (red point), which of the two objects is farther: computer tower (green point) or computer tower (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. computer tower (green point)\nB. computer tower (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001745/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1746, + "data_source": "SPAR-Bench", + "question": "Determine the object that is farther to office chair (red point): coat hanger (green point) or power socket (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. coat hanger (green point)\nB. power socket (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001746/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1747, + "data_source": "SPAR-Bench", + "question": "In the displayed image, which object is farther to shelf (red point): broom (green point) or light (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. light (blue point)\nB. broom (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001747/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1748, + "data_source": "SPAR-Bench", + "question": "Identify the object that is closer to the red point chair (red point): chair (green point) (green) or power strip (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. power strip (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001748/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1749, + "data_source": "SPAR-Bench", + "question": "Which object has a closer proximity to the red point bottle: crate (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. chair (blue point)\nB. crate (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001749/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1750, + "data_source": "SPAR-Bench", + "question": "Which point is located farther from trash bin (red point) in the image: toilet brush (green point) or flush button (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. toilet brush (green point)\nB. flush button (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001750/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1751, + "data_source": "SPAR-Bench", + "question": "Analyze the image and conclude whether copier (green point) or power socket (blue point) is closer to box (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. copier (green point)\nB. power socket (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001751/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1752, + "data_source": "SPAR-Bench", + "question": "In this comparison, is flush button (green point) or toilet paper dispenser (blue point) closer to the red point, toilet? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. flush button (green point)\nB. toilet paper dispenser (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001752/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1753, + "data_source": "SPAR-Bench", + "question": "From the red point decoration, which object, power socket (green point) or foldable closet (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. power socket (green point)\nB. foldable closet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001753/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1754, + "data_source": "SPAR-Bench", + "question": "From the red point window, which object, structure (green point) or picture (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. structure (green point)\nB. picture (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001754/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1755, + "data_source": "SPAR-Bench", + "question": "Which object lies at a closer distance from chair (red point): box (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. chair (blue point)\nB. box (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001755/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1756, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is plate (green point) or paper bag (blue point) closer to table (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. plate (green point)\nB. paper bag (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001756/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1757, + "data_source": "SPAR-Bench", + "question": "Between the green point coat hanger and blue points chair, which lies farther to the red point chair? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. coat hanger (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001757/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1758, + "data_source": "SPAR-Bench", + "question": "Considering the reference chair (red point), which object, heater (green point) or window sill (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. heater (green point)\nB. window sill (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001758/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1759, + "data_source": "SPAR-Bench", + "question": "Compare the positions of bed (green point) and chair (blue point). Which is farther to the beanbag (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. bed (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001759/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1760, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (chair) or the blue point (chair) is farther to chair (red point). Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001760/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1761, + "data_source": "SPAR-Bench", + "question": "Analyze the image and decide whether monitor (green point) or column (blue point) is closer to the center of box (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. column (blue point)\nB. monitor (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001761/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1762, + "data_source": "SPAR-Bench", + "question": "Which object is spatially farther to light switch (red point): whiteboard (green point) or monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. whiteboard (green point)\nB. monitor (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001762/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1763, + "data_source": "SPAR-Bench", + "question": "Identify the object that is farther to the red point jar (red point): cabinet (green point) (green) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. cabinet (blue point)\nB. cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001763/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1764, + "data_source": "SPAR-Bench", + "question": "Relative to chair (red point), which object lies closer, power socket (green point) or heater (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. power socket (green point)\nB. heater (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001764/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1765, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is light switch (green point) or chair (blue point) closer to chair (red point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. light switch (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001765/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1766, + "data_source": "SPAR-Bench", + "question": "In the displayed image, which object is closer to picture (red point): kitchen cabinet (green point) or structure (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. structure (blue point)\nB. kitchen cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001766/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1767, + "data_source": "SPAR-Bench", + "question": "Which object lies at a closer distance from blackboard (red point): blackboard (green point) or telephone (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. telephone (blue point)\nB. blackboard (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001767/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1768, + "data_source": "SPAR-Bench", + "question": "For the points labeled whiteboard eraser (green point), and box (blue point), determine which is farther to windowsill (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. whiteboard eraser (green point)\nB. box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001768/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1769, + "data_source": "SPAR-Bench", + "question": "Which object is spatially closer to whiteboard eraser (red point): table (green point) or box (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. table (green point)\nB. box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001769/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1770, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, chair (green point) or chair (blue point), lies closer to the chair (red point) in the image? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001770/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1771, + "data_source": "SPAR-Bench", + "question": "Which object is spatially closer to cabinet (red point): switch (green point) or switch (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. switch (blue point)\nB. switch (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001771/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1772, + "data_source": "SPAR-Bench", + "question": "Which object lies at a farther distance from laboratory equipment (red point): office chair (green point) or desk lamp (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. desk lamp (blue point)\nB. office chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001772/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1773, + "data_source": "SPAR-Bench", + "question": "In relation to cardboard box (red point), which of the two objects is farther: cardboard box (green point) or cardboard box (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. cardboard box (blue point)\nB. cardboard box (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001773/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1774, + "data_source": "SPAR-Bench", + "question": "In the provided image, which is closer to whiteboard (red point): copy machine (green point) or box (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. box (blue point)\nB. copy machine (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001774/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1775, + "data_source": "SPAR-Bench", + "question": "Identify the object that is spatially farther to book (red point): the green pointpowerstrip or the blue pointbox. Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. box (blue point)\nB. powerstrip (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001775/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1776, + "data_source": "SPAR-Bench", + "question": "Which object has a closer proximity to the red point clothes: shoes (green point) or trash bin (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. shoes (green point)\nB. trash bin (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001776/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1777, + "data_source": "SPAR-Bench", + "question": "Looking at the image, identify whether book (green point) or blinds (blue point) is closer to the center of book (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. book (green point)\nB. blinds (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001777/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1778, + "data_source": "SPAR-Bench", + "question": "In the image, which is farther to the center of blinds (red point): soap bottle (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. soap bottle (green point)\nB. cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001778/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1779, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of oscilloscope (red point), window (green point), and pillar (blue point). Which is closer to the center of oscilloscope (red point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. pillar (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001779/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1780, + "data_source": "SPAR-Bench", + "question": "Compare the positions of books (green point) and chair (blue point). Which is farther to the table (red point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. books (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001780/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1781, + "data_source": "SPAR-Bench", + "question": "From the image, decide whether the green point (power socket) or blue point (keyboard) is closer to monitor (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. power socket (green point)\nB. keyboard (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001781/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1782, + "data_source": "SPAR-Bench", + "question": "Analyze the image and conclude whether bucket (green point) or keyboard (blue point) is closer to power socket (red point). Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. bucket (green point)\nB. keyboard (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001782/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1783, + "data_source": "SPAR-Bench", + "question": "Determine the object that is farther to box (red point): chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001783/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1784, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, towel (green point) or bottle (blue point), lies closer to the tap (red point) in the image? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. bottle (blue point)\nB. towel (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001784/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1785, + "data_source": "SPAR-Bench", + "question": "From socket (red point), is cup (green point) or sink (blue point) situated at a farther distance? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. cup (green point)\nB. sink (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001785/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1786, + "data_source": "SPAR-Bench", + "question": "In this comparison, is shelf (green point) or broom (blue point) farther to the red point, shoes? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. broom (blue point)\nB. shelf (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001786/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1787, + "data_source": "SPAR-Bench", + "question": "Of the two objects, cardboard box (green point) and cardboard box (blue point), which is closer to cardboard box (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. cardboard box (green point)\nB. cardboard box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001787/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1788, + "data_source": "SPAR-Bench", + "question": "Which object appears to be closer to cabinet (red point) in the image, office chair (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. cabinet (blue point)\nB. office chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001788/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1789, + "data_source": "SPAR-Bench", + "question": "Relative to cardboard box (red point), which object lies farther, cardboard box (green point) or cardboard box (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. cardboard box (green point)\nB. cardboard box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001789/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1790, + "data_source": "SPAR-Bench", + "question": "In the context of the image, which point is farther to the center of window sill (red point): office chair (green point) or heater (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. office chair (green point)\nB. heater (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001790/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1791, + "data_source": "SPAR-Bench", + "question": "Which object has a closer proximity to the red point office chair: window (green point) or pedestal fan (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. window (green point)\nB. pedestal fan (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001791/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1792, + "data_source": "SPAR-Bench", + "question": "Between the green point plant pot and blue points bedside table, which lies farther to the red point table mat? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. bedside table (blue point)\nB. plant pot (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001792/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1793, + "data_source": "SPAR-Bench", + "question": "From the image, decide whether the green point (computer tower) or blue point (chair) is closer to tube (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. computer tower (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001793/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1794, + "data_source": "SPAR-Bench", + "question": "Which object is spatially farther to bottle (red point): toilet paper holder (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. toilet paper holder (green point)\nB. cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001794/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1795, + "data_source": "SPAR-Bench", + "question": "Looking at the image, identify whether power socket (green point) or window (blue point) is farther to the center of power socket (red point). Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. power socket (green point)\nB. window (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001795/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1796, + "data_source": "SPAR-Bench", + "question": "In the visual provided, which object is farther to kitchen cabinet (red point): water kettle (green point) or picture (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. picture (blue point)\nB. water kettle (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001796/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1797, + "data_source": "SPAR-Bench", + "question": "Which of the two points, box (green point) or tv (blue point), is farther from pillow (red point) in the image? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. tv (blue point)\nB. box (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001797/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1798, + "data_source": "SPAR-Bench", + "question": "Which point, chair (green point) or chair (blue point), is located closer to chair (red point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001798/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1799, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies closer to blinds (red point): power strip (green point) or heater (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. heater (blue point)\nB. power strip (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001799/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1800, + "data_source": "SPAR-Bench", + "question": "Analyze the image and conclude whether monitor (green point) or office chair (blue point) is closer to telephone (red point). Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. office chair (blue point)\nB. monitor (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001800/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1801, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, chair (green point) or table (blue point), is farther to power socket (red point) based on the image? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. chair (green point)\nB. table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001801/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1802, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of chair (red point), bottle (green point), and chair (blue point). Which is farther to the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. bottle (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001802/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1803, + "data_source": "SPAR-Bench", + "question": "Identify the object that is closer to the red point pen (red point): whiteboard (green point) (green) or window (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. window (blue point)\nB. whiteboard (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001803/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1804, + "data_source": "SPAR-Bench", + "question": "In the provided image, which is farther to bathroom cabinet (red point): bottle (green point) or bottle (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. bottle (green point)\nB. bottle (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001804/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1805, + "data_source": "SPAR-Bench", + "question": "From the image, decide whether the green point (trash bin) or blue point (machine) is farther to pedestal fan (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. trash bin (green point)\nB. machine (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001805/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1806, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is coax outlet (green point) or coax socket (blue point) closer to coax outlet (red point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. coax socket (blue point)\nB. coax outlet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001806/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1807, + "data_source": "SPAR-Bench", + "question": "Which of the two points, picture (green point) or paper (blue point), is closer from curtain (red point) in the image? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. paper (blue point)\nB. picture (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001807/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1808, + "data_source": "SPAR-Bench", + "question": "For the points labeled beanbag (green point), and bench (blue point), determine which is farther to sofa (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. beanbag (green point)\nB. bench (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001808/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1809, + "data_source": "SPAR-Bench", + "question": "Of the two objects, window (green point) and first aid box (blue point), which is closer to office chair (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. first aid box (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001809/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1810, + "data_source": "SPAR-Bench", + "question": "Relative to sofa (red point), which object lies farther, bookshelf (green point) or speaker (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. bookshelf (green point)\nB. speaker (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001810/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1811, + "data_source": "SPAR-Bench", + "question": "Looking at the positions of cup (red point), whiteboard (green point), and office chair (blue point), which is farther to cup? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. whiteboard (green point)\nB. office chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001811/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1812, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the image. Is light switch (green point) or shelf (blue point) positioned farther to sofa (red point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. light switch (green point)\nB. shelf (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001812/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1813, + "data_source": "SPAR-Bench", + "question": "Between chair (green point) and table (blue point), which is positioned closer to ottoman chair (red point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. table (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001813/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1814, + "data_source": "SPAR-Bench", + "question": "For the points labeled bathroom cabinet (green point), and shower curtain (blue point), determine which is closer to bathroom cabinet (red point). Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. shower curtain (blue point)\nB. bathroom cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001814/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1815, + "data_source": "SPAR-Bench", + "question": "From the red point windowframe, which object, cables (green point) or cabinet (blue point), is farther? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. cabinet (blue point)\nB. cables (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001815/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1816, + "data_source": "SPAR-Bench", + "question": "Looking at cabinet (red point), bluetooth speaker (green point), and window (blue point), which is closer to cabinet (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. window (blue point)\nB. bluetooth speaker (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001816/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1817, + "data_source": "SPAR-Bench", + "question": "In this comparison, is storage ecabinet (green point) or storage cabinet (blue point) farther to the red point, blinds? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. storage ecabinet (green point)\nB. storage cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001817/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1818, + "data_source": "SPAR-Bench", + "question": "In the visual provided, which object is closer to cardboard box (red point): storage cabinet (green point) or storage cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. storage cabinet (blue point)\nB. storage cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001818/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1819, + "data_source": "SPAR-Bench", + "question": "Which object lies at a farther distance from decoration (red point): power socket (green point) or foldable closet (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. power socket (green point)\nB. foldable closet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001819/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1820, + "data_source": "SPAR-Bench", + "question": "Between copy machine (green point) and microwave (blue point), which is positioned closer to power socket (red point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. copy machine (green point)\nB. microwave (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001820/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1821, + "data_source": "SPAR-Bench", + "question": "From the perspective of cardboard box (red point), which object is closer, cable tray (green point) or cardboard box (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. cardboard box (blue point)\nB. cable tray (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001821/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1822, + "data_source": "SPAR-Bench", + "question": "In this comparison, is power socket (green point) or box (blue point) farther to the red point, paper ram? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. box (blue point)\nB. power socket (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001822/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1823, + "data_source": "SPAR-Bench", + "question": "From the red point objects, which object, cabinet (green point) or headphone case (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. cabinet (green point)\nB. headphone case (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001823/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1824, + "data_source": "SPAR-Bench", + "question": "In the provided image, which is closer to broom (red point): tap (green point) or bathroom mat (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. bathroom mat (blue point)\nB. tap (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_001824/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 1825, + "data_source": "SPAR-Bench", + "question": "In the provided image, explain the location of the books (red bbox) with respect to the books (blue bbox), considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , closer\nB. left, below, farther\nC. right, above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001825/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1826, + "data_source": "SPAR-Bench", + "question": "Using the observer's frame of reference, describe how the bed (red bbox) is placed concerning the backpack (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, \nB. right, , farther\nC. right, , closer\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001826/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1827, + "data_source": "SPAR-Bench", + "question": "In terms of spatial relationships, where is the laptop (red bbox) located compared to the monitor (blue bbox) in the image? Consider the observer's frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, closer\nB. right, above, farther\nC. left, above, closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001827/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1828, + "data_source": "SPAR-Bench", + "question": "Using the image, describe the position of the organizer shelf (red bbox) with respect to the clothes (blue bbox) from the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, farther\nB. left, below, closer\nC. left, , \nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001828/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1829, + "data_source": "SPAR-Bench", + "question": "In the image, where does the monitor (red bbox) stand in relation to the monitor (blue bbox) based on the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, closer\nB. left, above, farther\nC. left, , closer\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001829/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1830, + "data_source": "SPAR-Bench", + "question": "How is the toilet (red bbox) spatially located in relation to the bathtub (blue bbox) in the image, as perceived by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , closer\nB. , above, closer\nC. left, , closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001830/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1831, + "data_source": "SPAR-Bench", + "question": "Where is the mirror (red bbox) found spatially in comparison to the bottle (blue bbox) in the image, according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , closer\nB. right, , closer\nC. left, below, \nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001831/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1832, + "data_source": "SPAR-Bench", + "question": "Identify the relative position of the crate (red bbox) to the shelf (blue bbox) in the image. Provide the answer based on the observer\u2019s frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , farther\nB. left, , farther\nC. right, below, farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001832/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1833, + "data_source": "SPAR-Bench", + "question": "Where is the chair (red bbox) located compared to the chair (blue bbox) as seen from the observer's perspective in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, \nB. right, below, closer\nC. left, below, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001833/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1834, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the suitcase (red bbox) situated in comparison to the backpack (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , closer\nB. left, , \nC. left, above, farther\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001834/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1835, + "data_source": "SPAR-Bench", + "question": "In terms of spatial relationships, where is the kitchen cabinet (red bbox) located compared to the refrigerator (blue bbox) in the image? Consider the observer's frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, , farther\nB. , above, farther\nC. left, above, farther\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001835/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1836, + "data_source": "SPAR-Bench", + "question": "Describe the relative positioning of the bed (red bbox) compared to the mirror (blue bbox) in the image, based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, farther\nB. right, above, farther\nC. left, , farther\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001836/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1837, + "data_source": "SPAR-Bench", + "question": "In the provided image, how is the chair (red bbox) positioned in relation to the curtains (blue bbox)? Specify the direction from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , farther\nB. right, , closer\nC. , below, closer\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001837/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1838, + "data_source": "SPAR-Bench", + "question": "How does the whiteboard (red bbox) align spatially with the chair (blue bbox) in the image? Respond based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, \nB. left, , farther\nC. left, below, farther\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001838/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1839, + "data_source": "SPAR-Bench", + "question": "In the provided image, what is the positional relationship of the machine (red bbox) to the washing machines (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , above, farther\nB. left, , farther\nC. right, below, closer\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001839/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1840, + "data_source": "SPAR-Bench", + "question": "Please describe how the chair (red bbox) is oriented relative to the chair (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , farther\nB. left, , closer\nC. right, below, farther\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001840/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1841, + "data_source": "SPAR-Bench", + "question": "In terms of spatial relationships, where is the chair (red bbox) located compared to the window (blue bbox) in the image? Consider the observer's frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, \nB. left, above, \nC. right, , farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001841/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1842, + "data_source": "SPAR-Bench", + "question": "In the given image, identify the location of the chair (red bbox) with respect to the chair (blue bbox) based on the observer's direction. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, \nB. right, below, closer\nC. left, , farther\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001842/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1843, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, describe the counter (red bbox) with respect to the recycling bin (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, \nB. left, above, closer\nC. , above, closer\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001843/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1844, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, explain the directional relationship between the desk (red bbox) and the case of water bottles (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, closer\nB. right, above, closer\nC. left, , farther\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001844/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1845, + "data_source": "SPAR-Bench", + "question": "In the provided image, explain the location of the case of water bottles (red bbox) with respect to the book (blue bbox), considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , closer\nB. right, , farther\nC. , above, closer\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001845/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1846, + "data_source": "SPAR-Bench", + "question": "Describe the positioning of the chair (red bbox) with respect to the bookshelf (blue bbox) in the image, based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, farther\nB. left, , closer\nC. left, , farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001846/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1847, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, specify where the microwave (red bbox) is located compared to the kitchen cabinet (blue bbox) in the given image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , below, farther\nB. right, above, closer\nC. , below, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001847/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1848, + "data_source": "SPAR-Bench", + "question": "Describe the positioning of the toilet paper dispenser (red bbox) with respect to the toilet (blue bbox) in the image, based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, \nB. left, above, closer\nC. right, , farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001848/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1849, + "data_source": "SPAR-Bench", + "question": "In the image, how does the stool (red bbox) appear spatially in relation to the stool (blue bbox), as observed by the viewer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, \nB. , above, farther\nC. right, , farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001849/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1850, + "data_source": "SPAR-Bench", + "question": "In terms of spatial relationships, where is the table (red bbox) located compared to the windowsill (blue bbox) in the image? Consider the observer's frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , farther\nB. right, , closer\nC. , below, closer\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001850/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1851, + "data_source": "SPAR-Bench", + "question": "Using the image, specify the position of the bed (red bbox) with respect to the messenger bag (blue bbox) from the viewpoint of the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, \nB. right, , farther\nC. right, below, closer\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001851/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1852, + "data_source": "SPAR-Bench", + "question": "From the observer's frame of reference, how is the recycling bin (red bbox) spatially situated in relation to the recycling bin (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , closer\nB. left, above, closer\nC. right, below, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001852/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1853, + "data_source": "SPAR-Bench", + "question": "Please describe how the paper (red bbox) is oriented relative to the paper cutter (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , closer\nB. left, above, \nC. right, below, closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001853/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1854, + "data_source": "SPAR-Bench", + "question": "Describe the chair (red bbox) compared to the monitor (blue bbox) in terms of spatial location, relative to the observer's view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, \nB. right, below, farther\nC. left, above, farther\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001854/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1855, + "data_source": "SPAR-Bench", + "question": "Using the image, explain where the table (red bbox) is located relative to the clothes dryer (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , farther\nB. left, below, farther\nC. right, below, closer\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001855/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1856, + "data_source": "SPAR-Bench", + "question": "Where is the window (red bbox) located compared to the chair (blue bbox) as seen from the observer's perspective in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , \nB. , below, closer\nC. left, below, farther\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001856/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1857, + "data_source": "SPAR-Bench", + "question": "Where does the stove (red bbox) appear to be located in relation to the kitchen cabinet (blue bbox) in the given image, relative to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, , closer\nB. left, below, closer\nC. , above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001857/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1858, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, what is the spatial position of the toilet (red bbox) relative to the bar (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, closer\nB. right, below, closer\nC. left, above, \nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001858/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1859, + "data_source": "SPAR-Bench", + "question": "Based on the observer's viewpoint, where is the toilet (red bbox) in relation to the toilet paper (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , closer\nB. left, , closer\nC. left, below, farther\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001859/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1860, + "data_source": "SPAR-Bench", + "question": "How does the window (red bbox) relate spatially to the backpack (blue bbox) in the image, as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, farther\nB. left, above, farther\nC. right, above, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001860/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1861, + "data_source": "SPAR-Bench", + "question": "Describe the location of the table (red bbox) with respect to the chair (blue bbox) in the given image, relative to the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , farther\nB. left, below, \nC. left, , \nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001861/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1862, + "data_source": "SPAR-Bench", + "question": "How would you describe the position of the toilet paper (red bbox) relative to the toilet (blue bbox) in the image? Provide the direction relative to the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , closer\nB. left, , farther\nC. , above, farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001862/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1863, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, how is the trash can (red bbox) located with respect to the bathtub (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, closer\nB. right, above, closer\nC. left, , closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001863/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1864, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, what is the directional placement of the mattress (red bbox) compared to the table (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , closer\nB. left, above, farther\nC. left, below, farther\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001864/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1865, + "data_source": "SPAR-Bench", + "question": "In the provided image, how is the bottle (red bbox) positioned in relation to the window (blue bbox)? Specify the direction from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , closer\nB. right, below, farther\nC. , above, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001865/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1866, + "data_source": "SPAR-Bench", + "question": "In terms of spatial relationships, where is the stool (red bbox) located compared to the chair (blue bbox) in the image? Consider the observer's frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, closer\nB. right, below, \nC. right, , farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001866/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1867, + "data_source": "SPAR-Bench", + "question": "Where is the table (red bbox) found spatially in comparison to the armchair (blue bbox) in the image, according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , closer\nB. left, above, farther\nC. , below, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001867/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1868, + "data_source": "SPAR-Bench", + "question": "Can you describe the position of the refrigerator (red bbox) relative to the kitchen cabinet (blue bbox) in the given image? Please base your answer on the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. , below, farther\nB. left, , closer\nC. , above, closer\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001868/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1869, + "data_source": "SPAR-Bench", + "question": "In the image, describe how the mattress (red bbox) is located spatially with respect to the desk (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , farther\nB. right, above, closer\nC. right, below, farther\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001869/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1870, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, describe the cart (red bbox) with respect to the chair (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, closer\nB. left, , farther\nC. , above, farther\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001870/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1871, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of the toilet (red bbox) with the toilet paper (blue bbox) in the image? Answer based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , farther\nB. , above, closer\nC. left, , closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001871/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1872, + "data_source": "SPAR-Bench", + "question": "Where, relative to the observer's viewpoint, is the laptop (red bbox) located in relation to the laptop (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, \nB. right, , closer\nC. left, below, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001872/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1873, + "data_source": "SPAR-Bench", + "question": "How does the chair (red bbox) align spatially with the monitor (blue bbox) in the image? Respond based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, closer\nB. left, , closer\nC. left, below, closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001873/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1874, + "data_source": "SPAR-Bench", + "question": "Using the image, specify the position of the drying rack (red bbox) with respect to the refrigerator (blue bbox) from the viewpoint of the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, closer\nB. left, , \nC. left, , closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001874/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1875, + "data_source": "SPAR-Bench", + "question": "How is the dish rack (red bbox) oriented spatially in relation to the paper towel roll (blue bbox) in the image, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , below, closer\nB. left, , closer\nC. right, , farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001875/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1876, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the office chair (red bbox) situated in comparison to the office chair (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , closer\nB. left, , farther\nC. right, , closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001876/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1877, + "data_source": "SPAR-Bench", + "question": "From the observer's frame of reference, how is the curtains (red bbox) spatially situated in relation to the pillow (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, below, closer\nB. right, , farther\nC. , above, farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001877/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1878, + "data_source": "SPAR-Bench", + "question": "Using the image, explain where the rail (red bbox) is located relative to the soap dish (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, , closer\nB. right, above, farther\nC. , above, closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001878/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1879, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, where is the curtain (red bbox) positioned relative to the mat (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, farther\nB. right, below, \nC. right, above, closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001879/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1880, + "data_source": "SPAR-Bench", + "question": "In the given image, identify the location of the books (red bbox) with respect to the books (blue bbox) based on the observer's direction. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , below, \nB. right, above, closer\nC. left, , closer\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001880/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1881, + "data_source": "SPAR-Bench", + "question": "In the given image, what is the spatial alignment of the box (red bbox) relative to the box (blue bbox) as perceived by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, closer\nB. right, below, \nC. right, above, \nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001881/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1882, + "data_source": "SPAR-Bench", + "question": "Based on the observer's viewpoint, where is the window (red bbox) in relation to the sink (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , farther\nB. left, above, closer\nC. left, , closer\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001882/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1883, + "data_source": "SPAR-Bench", + "question": "State the position of the desk (red bbox) with respect to the chair (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, \nB. left, above, \nC. right, , farther\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001883/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1884, + "data_source": "SPAR-Bench", + "question": "How does the soap dispenser (red bbox) align spatially with the paper towel dispenser (blue bbox) in the image? Respond based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, \nB. right, below, closer\nC. , above, closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001884/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1885, + "data_source": "SPAR-Bench", + "question": "Where is the kitchen cabinet (red bbox) relative to the refrigerator (blue bbox) in the image, according to the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, below, \nB. , below, closer\nC. right, below, farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001885/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1886, + "data_source": "SPAR-Bench", + "question": "How does the couch (red bbox) relate spatially to the ottoman (blue bbox) in the image, as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, \nB. left, above, \nC. right, below, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001886/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1887, + "data_source": "SPAR-Bench", + "question": "In the given image, what is the position of the table (red bbox) relative to the bed (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, closer\nB. right, , farther\nC. right, below, closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001887/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1888, + "data_source": "SPAR-Bench", + "question": "In the image, describe where the sink (red bbox) is located in relation to the ledge (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , below, closer\nB. , above, closer\nC. right, below, closer\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001888/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1889, + "data_source": "SPAR-Bench", + "question": "Where, relative to the observer's viewpoint, is the chair (red bbox) located in relation to the chair (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , closer\nB. , below, farther\nC. , above, closer\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001889/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1890, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, how is the couch (red bbox) located with respect to the couch (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, closer\nB. right, below, farther\nC. left, , farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001890/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1891, + "data_source": "SPAR-Bench", + "question": "Examine the image and determine the relative position of the chair (red bbox) to the chair (blue bbox) as observed by the viewer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , closer\nB. left, , closer\nC. left, , farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001891/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1892, + "data_source": "SPAR-Bench", + "question": "Describe the relative position of the chair (red bbox) to the chair (blue bbox) in the image as seen from the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , farther\nB. left, above, closer\nC. , above, farther\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001892/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1893, + "data_source": "SPAR-Bench", + "question": "Please describe how the backpack (red bbox) is oriented relative to the chair (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, \nB. right, below, \nC. , above, \nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001893/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1894, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, where can the radiator (red bbox) be seen relative to the curtain (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , closer\nB. right, below, farther\nC. , below, \nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001894/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1895, + "data_source": "SPAR-Bench", + "question": "Describe how the storage bin (red bbox) is situated in relation to the box (blue bbox) in the image, considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, closer\nB. right, , closer\nC. right, below, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001895/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1896, + "data_source": "SPAR-Bench", + "question": "How does the chair (red bbox) relate spatially to the blackboard (blue bbox) in the image, as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, closer\nB. right, below, farther\nC. , above, closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001896/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1897, + "data_source": "SPAR-Bench", + "question": "In the provided image, where is the monitor (red bbox) in comparison to the keyboard (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , closer\nB. , above, farther\nC. , below, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001897/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1898, + "data_source": "SPAR-Bench", + "question": "In the image, describe how the picture (red bbox) is located spatially with respect to the picture (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, , closer\nB. left, above, farther\nC. left, , farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001898/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1899, + "data_source": "SPAR-Bench", + "question": "Where is the table (red bbox) relative to the whiteboard (blue bbox) in the image, according to the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, closer\nB. right, below, closer\nC. left, , farther\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001899/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1900, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, where does the trash can (red bbox) appear in relation to the book (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. , below, closer\nB. left, , farther\nC. right, above, farther\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001900/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1901, + "data_source": "SPAR-Bench", + "question": "Where is the trash can (red bbox) relative to the bathroom vanity (blue bbox) in the image, according to the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , farther\nB. right, above, \nC. right, above, farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001901/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1902, + "data_source": "SPAR-Bench", + "question": "In the provided image, explain the location of the table (red bbox) with respect to the projector screen (blue bbox), considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, closer\nB. left, above, farther\nC. , below, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001902/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1903, + "data_source": "SPAR-Bench", + "question": "Describe the position of the chair (red bbox) concerning the chair (blue bbox) in the image, from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , closer\nB. left, , farther\nC. right, below, closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001903/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1904, + "data_source": "SPAR-Bench", + "question": "In the provided image, explain the location of the kitchen cabinet (red bbox) with respect to the bag (blue bbox), considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, closer\nB. right, below, closer\nC. left, , farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001904/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1905, + "data_source": "SPAR-Bench", + "question": "Where is the chair (red bbox) found relative to the chair (blue bbox) in the image, as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, closer\nB. left, , closer\nC. left, above, closer\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001905/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1906, + "data_source": "SPAR-Bench", + "question": "Describe the position of the bag (red bbox) concerning the trash can (blue bbox) in the image, from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, closer\nB. right, above, closer\nC. right, , closer\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001906/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1907, + "data_source": "SPAR-Bench", + "question": "In the given image, how does the sofa chair (red bbox) compare spatially to the pillow (blue bbox) from the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , farther\nB. left, below, farther\nC. right, , closer\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001907/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1908, + "data_source": "SPAR-Bench", + "question": "How would you describe the position of the couch (red bbox) relative to the backpack (blue bbox) in the image? Provide the direction relative to the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, , closer\nB. right, above, farther\nC. right, below, closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001908/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1909, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of the rail (red bbox) with the toilet paper (blue bbox) in the image? Answer based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, farther\nB. , above, closer\nC. right, below, \nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001909/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1910, + "data_source": "SPAR-Bench", + "question": "As seen by the observer, how is the chair (red bbox) positioned compared to the chair (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, farther\nB. right, , farther\nC. left, below, closer\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001910/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1911, + "data_source": "SPAR-Bench", + "question": "Describe the relative positioning of the chair (red bbox) with respect to the chair (blue bbox) from the observer\u2019s perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , farther\nB. right, above, closer\nC. right, below, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001911/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1912, + "data_source": "SPAR-Bench", + "question": "Describe the relative position of the tray (red bbox) to the tray (blue bbox) in the image as seen from the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, closer\nB. , below, \nC. left, below, farther\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001912/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1913, + "data_source": "SPAR-Bench", + "question": "Where is the toilet (red bbox) positioned in the image compared to the bathtub (blue bbox)? State the direction from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, \nB. right, , closer\nC. right, below, \nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001913/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1914, + "data_source": "SPAR-Bench", + "question": "Describe how the trash can (red bbox) is situated in relation to the toilet (blue bbox) in the image, considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , farther\nB. right, , farther\nC. right, above, closer\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001914/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1915, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how is the telephone (red bbox) positioned in comparison to the monitor (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, \nB. right, below, farther\nC. right, below, closer\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001915/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1916, + "data_source": "SPAR-Bench", + "question": "In terms of spatial relationships, where is the chair (red bbox) located compared to the table (blue bbox) in the image? Consider the observer's frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, closer\nB. right, , closer\nC. left, , closer\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001916/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1917, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, where does the toilet paper (red bbox) appear relative to the bathroom counter (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, farther\nB. left, below, closer\nC. right, below, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001917/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1918, + "data_source": "SPAR-Bench", + "question": "Describe where the chair (red bbox) lies in relation to the chair (blue bbox) in the image, from the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, below, farther\nB. right, , farther\nC. left, , closer\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001918/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1919, + "data_source": "SPAR-Bench", + "question": "In the given image, how does the chair (red bbox) compare spatially to the chair (blue bbox) from the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, \nB. right, , closer\nC. left, above, closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001919/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1920, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the monitor (red bbox) be found compared to the storage shelf (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , below, closer\nB. left, below, farther\nC. left, , farther\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001920/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1921, + "data_source": "SPAR-Bench", + "question": "In the given image, what is the position of the towel (red bbox) relative to the towel (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, closer\nB. left, , closer\nC. right, below, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001921/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1922, + "data_source": "SPAR-Bench", + "question": "Describe the relative positioning of the armchair (red bbox) with respect to the armchair (blue bbox) from the observer\u2019s perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, farther\nB. right, below, closer\nC. right, below, farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001922/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1923, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, where is the sink (red bbox) positioned relative to the window (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, farther\nB. left, above, \nC. left, , farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001923/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1924, + "data_source": "SPAR-Bench", + "question": "Considering the observer's point of view, where is the soap dispenser (red bbox) positioned compared to the sink (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, farther\nB. left, above, farther\nC. left, below, closer\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001924/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1925, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, where does the cabinet (red bbox) appear relative to the stair rail (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , below, farther\nB. left, , closer\nC. left, above, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001925/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1926, + "data_source": "SPAR-Bench", + "question": "What is the spatial orientation of the vending machine (red bbox) compared to the vending machine (blue bbox) in the image, relative to the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , \nB. , above, closer\nC. , above, farther\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001926/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1927, + "data_source": "SPAR-Bench", + "question": "In the image, how is the backpack (red bbox) positioned in relation to the chair (blue bbox), from the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, below, closer\nB. right, , farther\nC. left, above, farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001927/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1928, + "data_source": "SPAR-Bench", + "question": "State the position of the chair (red bbox) with respect to the chair (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, \nB. left, , closer\nC. right, , closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001928/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1929, + "data_source": "SPAR-Bench", + "question": "Where is the chair (red bbox) relative to the chair (blue bbox) in the image, according to the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , below, farther\nB. left, below, \nC. right, , closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001929/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1930, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, describe the spatial orientation of the backpack (red bbox) relative to the chair (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , closer\nB. left, below, farther\nC. right, below, \nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001930/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1931, + "data_source": "SPAR-Bench", + "question": "In the image, where does the chair (red bbox) lie with respect to the chair (blue bbox) based on the observer's frame of reference? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, , farther\nB. left, above, farther\nC. , below, closer\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001931/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1932, + "data_source": "SPAR-Bench", + "question": "Describe the relative orientation of the chair (red bbox) to the chair (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, closer\nB. right, , closer\nC. left, below, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001932/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1933, + "data_source": "SPAR-Bench", + "question": "As seen in the image, where is the shelf (red bbox) located relative to the cabinet (blue bbox) from the observer's point of view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, closer\nB. right, , farther\nC. right, below, closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001933/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1934, + "data_source": "SPAR-Bench", + "question": "Where is the shelf (red bbox) positioned in the image compared to the chair (blue bbox)? State the direction from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, closer\nB. left, above, farther\nC. right, below, \nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001934/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1935, + "data_source": "SPAR-Bench", + "question": "Describe the spatial arrangement of the office chair (red bbox) and the desk (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , closer\nB. , above, closer\nC. right, above, closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001935/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1936, + "data_source": "SPAR-Bench", + "question": "How does the tissue box (red bbox) relate spatially to the storage bin (blue bbox) in the image, as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, , closer\nB. left, above, farther\nC. left, above, \nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001936/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1937, + "data_source": "SPAR-Bench", + "question": "Describe the relative location of the armchair (red bbox) with respect to the table (blue bbox) in the image, as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, \nB. left, above, \nC. , above, farther\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001937/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1938, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, how is the chair (red bbox) placed compared to the chair (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , closer\nB. left, above, farther\nC. left, , closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001938/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1939, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how is the shelf (red bbox) positioned in comparison to the window (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, below, \nB. right, , closer\nC. left, below, farther\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001939/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1940, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, how is the chair (red bbox) positioned in relation to the chair (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, , closer\nB. , above, closer\nC. right, below, farther\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001940/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1941, + "data_source": "SPAR-Bench", + "question": "Where is the stack of chairs (red bbox) found spatially in comparison to the chair (blue bbox) in the image, according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, closer\nB. right, , closer\nC. right, below, farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001941/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1942, + "data_source": "SPAR-Bench", + "question": "In the given image, identify the location of the office chair (red bbox) relative to the office chair (blue bbox), as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, , farther\nB. left, below, farther\nC. left, below, \nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001942/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1943, + "data_source": "SPAR-Bench", + "question": "Describe the relative position of the table (red bbox) to the chair (blue bbox) in the image as seen from the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, \nB. right, , farther\nC. right, below, closer\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001943/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1944, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, describe the cabinet (red bbox) with respect to the table (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , closer\nB. right, , farther\nC. left, above, \nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001944/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1945, + "data_source": "SPAR-Bench", + "question": "Based on the observer's viewpoint, where is the light switch (red bbox) in relation to the mirror (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, closer\nB. , above, farther\nC. left, , closer\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001945/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1946, + "data_source": "SPAR-Bench", + "question": "How does the chair (red bbox) relate spatially to the plant (blue bbox) in the image, as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, , closer\nB. right, , farther\nC. left, below, closer\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001946/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1947, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of the cabinet (red bbox) with the chair (blue bbox) in the image? Answer based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, \nB. right, , farther\nC. left, , closer\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001947/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1948, + "data_source": "SPAR-Bench", + "question": "In the given image, identify the location of the desk (red bbox) with respect to the telephone (blue bbox) based on the observer's direction. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, farther\nB. right, below, \nC. right, below, farther\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001948/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1949, + "data_source": "SPAR-Bench", + "question": "How is the toilet paper (red bbox) oriented spatially in relation to the trash can (blue bbox) in the image, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, \nB. right, below, \nC. , above, farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001949/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1950, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, how is the desk (red bbox) positioned in relation to the bag (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , above, farther\nB. left, below, \nC. right, below, farther\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001950/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1951, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the chair (red bbox) relative to the table (blue bbox) in the image, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, farther\nB. right, , farther\nC. left, below, closer\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001951/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1952, + "data_source": "SPAR-Bench", + "question": "In the image, where is the table (red bbox) located compared to the chair (blue bbox) based on the observer's viewpoint? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , below, farther\nB. left, above, farther\nC. right, above, \nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001952/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1953, + "data_source": "SPAR-Bench", + "question": "Where is the cabinet (red bbox) located compared to the window (blue bbox) as seen from the observer's perspective in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, closer\nB. , above, farther\nC. right, , farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001953/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1954, + "data_source": "SPAR-Bench", + "question": "Where is the backpack (red bbox) found relative to the tray (blue bbox) in the image, as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , below, farther\nB. left, below, farther\nC. left, above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001954/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1955, + "data_source": "SPAR-Bench", + "question": "Describe the position of the chair (red bbox) concerning the table (blue bbox) in the image, from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, \nB. , above, closer\nC. right, , farther\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001955/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1956, + "data_source": "SPAR-Bench", + "question": "Based on the observer's viewpoint, where is the chair (red bbox) in relation to the chair (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , closer\nB. left, below, \nC. right, , closer\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001956/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1957, + "data_source": "SPAR-Bench", + "question": "In the image, how does the window (red bbox) appear spatially in relation to the dresser (blue bbox), as observed by the viewer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, below, closer\nB. , below, closer\nC. right, above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001957/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1958, + "data_source": "SPAR-Bench", + "question": "Where is the tv stand (red bbox) located compared to the bike lock (blue bbox) as seen from the observer's perspective in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, below, farther\nB. right, above, \nC. right, above, farther\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001958/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1959, + "data_source": "SPAR-Bench", + "question": "In terms of spatial relationships, where is the chair (red bbox) located compared to the table (blue bbox) in the image? Consider the observer's frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, farther\nB. right, below, \nC. , below, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001959/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1960, + "data_source": "SPAR-Bench", + "question": "State the position of the chair (red bbox) with respect to the tray (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , farther\nB. right, below, farther\nC. right, , closer\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001960/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1961, + "data_source": "SPAR-Bench", + "question": "Where is the window (red bbox) positioned in the image compared to the backpack (blue bbox)? State the direction from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, farther\nB. right, below, closer\nC. , above, closer\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001961/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1962, + "data_source": "SPAR-Bench", + "question": "Where is the toilet paper (red bbox) located compared to the bathtub (blue bbox) as seen from the observer's perspective in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , farther\nB. left, above, closer\nC. left, , closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001962/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1963, + "data_source": "SPAR-Bench", + "question": "Describe the relative positioning of the cabinet (red bbox) compared to the mini fridge (blue bbox) in the image, based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , closer\nB. right, below, \nC. left, below, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001963/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1964, + "data_source": "SPAR-Bench", + "question": "In the image, where does the chair (red bbox) stand in relation to the chair (blue bbox) based on the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, below, closer\nB. right, below, closer\nC. right, above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001964/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1965, + "data_source": "SPAR-Bench", + "question": "Where is the desk (red bbox) positioned in the image compared to the chair (blue bbox)? State the direction from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , above, farther\nB. , above, closer\nC. left, above, \nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001965/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1966, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, how is the keyboard (red bbox) placed compared to the office chair (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, closer\nB. , above, closer\nC. left, , farther\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001966/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1967, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, how is the chair (red bbox) located with respect to the chair (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, \nB. left, below, closer\nC. , below, farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001967/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1968, + "data_source": "SPAR-Bench", + "question": "State the position of the chair (red bbox) with respect to the chair (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, \nB. left, , farther\nC. right, below, \nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001968/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1969, + "data_source": "SPAR-Bench", + "question": "What is the position of the chair (red bbox) in comparison to the table (blue bbox) in the image? Provide the answer as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, closer\nB. left, above, closer\nC. right, , farther\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001969/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1970, + "data_source": "SPAR-Bench", + "question": "Examine the image and determine the relative position of the chair (red bbox) to the chair (blue bbox) as observed by the viewer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, , farther\nB. left, below, closer\nC. right, below, closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001970/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1971, + "data_source": "SPAR-Bench", + "question": "Describe the relative orientation of the nightstand (red bbox) to the suitcase (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, \nB. right, above, closer\nC. , above, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001971/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1972, + "data_source": "SPAR-Bench", + "question": "Describe where the computer tower (red bbox) lies in relation to the monitor (blue bbox) in the image, from the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, closer\nB. right, above, \nC. right, below, \nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001972/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1973, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, specify where the monitor (red bbox) is located compared to the monitor (blue bbox) in the given image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, closer\nB. left, below, farther\nC. right, below, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001973/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1974, + "data_source": "SPAR-Bench", + "question": "Describe the relative position of the window (red bbox) to the refrigerator (blue bbox) in the image as seen from the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, closer\nB. left, above, \nC. left, , farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001974/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1975, + "data_source": "SPAR-Bench", + "question": "Where is the toilet paper (red bbox) situated in the image relative to the telephone (blue bbox) from the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, \nB. left, below, \nC. right, below, closer\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001975/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1976, + "data_source": "SPAR-Bench", + "question": "Describe where the book (red bbox) lies in relation to the book (blue bbox) in the image, from the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, closer\nB. left, , farther\nC. , above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001976/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1977, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, how is the washing machine (red bbox) positioned in relation to the cabinet (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , farther\nB. left, , closer\nC. right, , farther\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001977/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1978, + "data_source": "SPAR-Bench", + "question": "Based on the observer's viewpoint, where is the table (red bbox) in relation to the chair (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, \nB. right, , farther\nC. right, above, farther\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001978/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1979, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the kitchen cabinet (red bbox) located relative to the kitchen cabinet (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, closer\nB. , below, closer\nC. right, , closer\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001979/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1980, + "data_source": "SPAR-Bench", + "question": "What is the spatial orientation of the mailbox (red bbox) compared to the copier (blue bbox) in the image, relative to the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, closer\nB. right, above, farther\nC. left, , farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001980/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1981, + "data_source": "SPAR-Bench", + "question": "From the observer's frame of reference, how is the bathtub (red bbox) spatially situated in relation to the mat (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, farther\nB. left, below, closer\nC. , above, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001981/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1982, + "data_source": "SPAR-Bench", + "question": "How does the armchair (red bbox) align spatially with the coffee table (blue bbox) in the image? Respond based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , farther\nB. right, , closer\nC. right, above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001982/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1983, + "data_source": "SPAR-Bench", + "question": "In the image, how does the shelf (red bbox) appear spatially in relation to the picture (blue bbox), as observed by the viewer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , closer\nB. , above, closer\nC. , below, farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001983/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1984, + "data_source": "SPAR-Bench", + "question": "In the given image, identify the location of the box (red bbox) with respect to the bench (blue bbox) based on the observer's direction. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, \nB. left, above, closer\nC. right, , closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001984/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1985, + "data_source": "SPAR-Bench", + "question": "Describe the position of the computer tower (red bbox) concerning the chair (blue bbox) in the image, from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, \nB. right, below, closer\nC. right, above, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001985/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1986, + "data_source": "SPAR-Bench", + "question": "Describe the location of the chair (red bbox) with respect to the table (blue bbox) in the given image, relative to the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , farther\nB. right, above, farther\nC. , below, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001986/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1987, + "data_source": "SPAR-Bench", + "question": "In the image, how does the picture (red bbox) appear spatially in relation to the window (blue bbox), as observed by the viewer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , farther\nB. right, , closer\nC. , above, closer\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001987/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1988, + "data_source": "SPAR-Bench", + "question": "Based on the observer's point of view, how is the toilet (red bbox) oriented in relation to the bottle (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, below, \nB. , above, closer\nC. right, , farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001988/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1989, + "data_source": "SPAR-Bench", + "question": "In the provided image, explain the location of the bathroom vanity (red bbox) with respect to the trash can (blue bbox), considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , farther\nB. right, above, \nC. , below, farther\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001989/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1990, + "data_source": "SPAR-Bench", + "question": "Using the image, specify the position of the chair (red bbox) with respect to the table (blue bbox) from the viewpoint of the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, closer\nB. right, , closer\nC. right, below, farther\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001990/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1991, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the backpack (red bbox) situated in comparison to the book (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , above, closer\nB. right, , closer\nC. , below, farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001991/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1992, + "data_source": "SPAR-Bench", + "question": "In the image, how is the toilet (red bbox) spatially oriented in relation to the trash can (blue bbox) from the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, , farther\nB. right, above, \nC. left, , closer\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001992/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1993, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, how does the chair (red bbox) align relative to the chair (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , above, closer\nB. left, , closer\nC. right, above, closer\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001993/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1994, + "data_source": "SPAR-Bench", + "question": "Based on the observer's point of view, how is the table (red bbox) oriented in relation to the table (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, below, farther\nB. , above, closer\nC. left, below, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001994/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1995, + "data_source": "SPAR-Bench", + "question": "Where is the bookshelf (red bbox) positioned in the image compared to the window (blue bbox)? State the direction from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , farther\nB. , above, closer\nC. right, above, farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001995/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1996, + "data_source": "SPAR-Bench", + "question": "Where does the oven (red bbox) appear in relation to the oven (blue bbox) in the image from the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, farther\nB. left, below, closer\nC. right, , closer\nD. , above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001996/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1997, + "data_source": "SPAR-Bench", + "question": "How is the couch (red bbox) spatially located in relation to the radiator (blue bbox) in the image, as perceived by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , above, closer\nB. right, below, farther\nC. left, below, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001997/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1998, + "data_source": "SPAR-Bench", + "question": "How does the office chair (red bbox) relate spatially to the office chair (blue bbox) in the image, as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, \nB. left, below, closer\nC. right, , farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001998/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 1999, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, describe the chair (red bbox) with respect to the table (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , closer\nB. , above, farther\nC. left, below, closer\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_001999/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2000, + "data_source": "SPAR-Bench", + "question": "In the image, how is the dining table (red bbox) positioned in relation to the chair (blue bbox), from the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, \nB. left, , closer\nC. right, above, closer\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002000/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2001, + "data_source": "SPAR-Bench", + "question": "Where does the wet floor sign (red bbox) lie in relation to the trash bin (blue bbox) in the image from the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, closer\nB. right, below, closer\nC. right, , farther\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002001/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2002, + "data_source": "SPAR-Bench", + "question": "Can you describe the position of the chair (red bbox) relative to the tv (blue bbox) in the given image? Please base your answer on the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, \nB. , below, closer\nC. left, below, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002002/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2003, + "data_source": "SPAR-Bench", + "question": "What is the spatial arrangement of the chair (red bbox) compared to the chair (blue bbox) from the perspective of the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, \nB. right, below, \nC. left, below, farther\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002003/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2004, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of the cabinet (red bbox) with the bulletin board (blue bbox) in the image? Answer based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , above, closer\nB. , below, farther\nC. right, , closer\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002004/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2005, + "data_source": "SPAR-Bench", + "question": "Analyze the image and state where the desk (red bbox) is in relation to the bed (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, closer\nB. left, above, \nC. left, , closer\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002005/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2006, + "data_source": "SPAR-Bench", + "question": "Where is the kitchen cabinets (red bbox) located compared to the sink (blue bbox) as seen from the observer's perspective in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, farther\nB. left, , farther\nC. , below, farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002006/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2007, + "data_source": "SPAR-Bench", + "question": "Describe the positioning of the printer (red bbox) with respect to the platform trolley (blue bbox) in the image, based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, below, \nB. , above, farther\nC. left, above, \nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002007/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2008, + "data_source": "SPAR-Bench", + "question": "Describe the positioning of the toilet flush button (red bbox) with respect to the split (blue bbox) in the image, based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, \nB. left, , closer\nC. right, , closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002008/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2009, + "data_source": "SPAR-Bench", + "question": "Where is the plant (red bbox) situated in the image relative to the plant pot coaster (blue bbox) from the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, farther\nB. right, , farther\nC. right, above, closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002009/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2010, + "data_source": "SPAR-Bench", + "question": "Describe the positioning of the cardboard (red bbox) with respect to the pipe (blue bbox) in the image, based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, closer\nB. right, above, \nC. right, , farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002010/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2011, + "data_source": "SPAR-Bench", + "question": "In the image, describe where the air duct (red bbox) is located in relation to the table (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, \nB. , above, farther\nC. left, above, closer\nD. , above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002011/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2012, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, how is the sink (red bbox) positioned in relation to the toothpaste (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, closer\nB. right, above, closer\nC. right, above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002012/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2013, + "data_source": "SPAR-Bench", + "question": "Can you locate the shoes (red bbox) compared to the shoes (blue bbox) in the image, using the observer's point of view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, farther\nB. , below, closer\nC. , above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002013/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2014, + "data_source": "SPAR-Bench", + "question": "In the image, describe where the chair (red bbox) is located in relation to the window frame (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , farther\nB. , below, closer\nC. , above, farther\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002014/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2015, + "data_source": "SPAR-Bench", + "question": "State the position of the smoke detector (red bbox) with respect to the sofa (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, farther\nB. , above, closer\nC. left, above, \nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002015/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2016, + "data_source": "SPAR-Bench", + "question": "Where, relative to the observer's viewpoint, is the kitchen cabinet (red bbox) located in relation to the light switch (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, closer\nB. left, below, farther\nC. left, , closer\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002016/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2017, + "data_source": "SPAR-Bench", + "question": "In the image, how does the window (red bbox) appear spatially in relation to the air conditioner (blue bbox), as observed by the viewer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, farther\nB. , above, farther\nC. left, above, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002017/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2018, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the table (red bbox) be found compared to the rolling chair (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , closer\nB. right, above, \nC. left, below, farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002018/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2019, + "data_source": "SPAR-Bench", + "question": "As seen in the image, where is the cleaning liquid (red bbox) located relative to the towel (blue bbox) from the observer's point of view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, below, \nB. right, below, \nC. , below, closer\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002019/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2020, + "data_source": "SPAR-Bench", + "question": "Where is the chair (red bbox) found spatially in comparison to the table (blue bbox) in the image, according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , closer\nB. right, above, closer\nC. right, above, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002020/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2021, + "data_source": "SPAR-Bench", + "question": "In the given image, what is the position of the mirror lamp (red bbox) relative to the bathroom cabinet (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. , below, closer\nB. right, below, farther\nC. right, above, \nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002021/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2022, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, what is the spatial position of the oven (red bbox) relative to the SPLIT (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, farther\nB. left, below, \nC. , above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002022/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2023, + "data_source": "SPAR-Bench", + "question": "Describe the spatial arrangement of the storage cabinet (red bbox) and the whiteboard eraser (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, closer\nB. , below, closer\nC. right, , closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002023/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2024, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, describe the wooden plank (red bbox) with respect to the structure (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , below, closer\nB. left, , farther\nC. right, below, farther\nD. left, , \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002024/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2025, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is the structure (red bbox) situated in relation to the computer tower (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, \nB. , above, farther\nC. left, above, farther\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002025/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2026, + "data_source": "SPAR-Bench", + "question": "Describe the relative orientation of the pedestal fan (red bbox) to the window (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, \nB. right, above, closer\nC. right, below, farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002026/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2027, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, where is the window (red bbox) positioned relative to the table (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, , closer\nB. left, above, farther\nC. right, above, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002027/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2028, + "data_source": "SPAR-Bench", + "question": "Where is the monitor (red bbox) relative to the column (blue bbox) in the image, according to the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , closer\nB. , above, farther\nC. right, above, farther\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002028/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2029, + "data_source": "SPAR-Bench", + "question": "Describe the projector holder (red bbox) compared to the window (blue bbox) in terms of spatial location, relative to the observer's view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, \nB. left, above, closer\nC. right, , closer\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002029/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2030, + "data_source": "SPAR-Bench", + "question": "In the provided image, where is the table (red bbox) in comparison to the table (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , below, closer\nB. , below, farther\nC. right, below, farther\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002030/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2031, + "data_source": "SPAR-Bench", + "question": "What is the spatial orientation of the monitor (red bbox) compared to the trash can (blue bbox) in the image, relative to the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, \nB. left, below, closer\nC. right, below, \nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002031/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2032, + "data_source": "SPAR-Bench", + "question": "Where is the machine (red bbox) located compared to the trash can (blue bbox) as seen from the observer's perspective in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , closer\nB. left, above, closer\nC. , above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002032/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2033, + "data_source": "SPAR-Bench", + "question": "Can you locate the broom (red bbox) compared to the shoes (blue bbox) in the image, using the observer's point of view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , closer\nB. , above, farther\nC. right, , farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002033/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2034, + "data_source": "SPAR-Bench", + "question": "Where does the table (red bbox) appear to be located in relation to the projector screen (blue bbox) in the given image, relative to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, closer\nB. right, , closer\nC. , below, closer\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002034/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2035, + "data_source": "SPAR-Bench", + "question": "In the given image, identify the location of the cup (red bbox) relative to the utensils (blue bbox), as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , above, farther\nB. right, above, farther\nC. right, below, \nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002035/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2036, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, describe the monitor (red bbox) with respect to the office chair (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , above, closer\nB. , below, closer\nC. right, below, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002036/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2037, + "data_source": "SPAR-Bench", + "question": "In the given image, identify the location of the books (red bbox) with respect to the cabinet (blue bbox) based on the observer's direction. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, , closer\nB. left, below, closer\nC. right, below, farther\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002037/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2038, + "data_source": "SPAR-Bench", + "question": "Where is the chair (red bbox) located compared to the chair (blue bbox) as seen from the observer's perspective in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, farther\nB. , above, closer\nC. right, above, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002038/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2039, + "data_source": "SPAR-Bench", + "question": "In the given image, identify the location of the laboratory equipment (red bbox) relative to the electrical duct (blue bbox), as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, , closer\nB. left, below, closer\nC. left, , closer\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002039/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2040, + "data_source": "SPAR-Bench", + "question": "Where does the window (red bbox) appear in relation to the box (blue bbox) in the image from the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , above, farther\nB. right, above, farther\nC. right, below, farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002040/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2041, + "data_source": "SPAR-Bench", + "question": "In the given image, what is the spatial alignment of the light switch (red bbox) relative to the standing lamp (blue bbox) as perceived by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, , \nB. right, below, closer\nC. right, above, \nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002041/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2042, + "data_source": "SPAR-Bench", + "question": "Describe where the toilet (red bbox) lies in relation to the bathroom cabinet (blue bbox) in the image, from the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, closer\nB. right, below, closer\nC. right, , closer\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002042/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2043, + "data_source": "SPAR-Bench", + "question": "In the given image, what is the position of the box (red bbox) relative to the air conditioner (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , closer\nB. , above, closer\nC. left, below, \nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002043/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2044, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, explain the directional relationship between the shoes (red bbox) and the shoes (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , farther\nB. left, above, \nC. , below, closer\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002044/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2045, + "data_source": "SPAR-Bench", + "question": "Identify the relative spatial arrangement of the shelf (red bbox) and the box (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, closer\nB. , below, farther\nC. right, , closer\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002045/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2046, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, what is the spatial position of the light switch (red bbox) relative to the power socket (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, below, closer\nB. left, below, \nC. , above, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002046/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2047, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, where can the paper (red bbox) be seen relative to the paper (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, \nB. left, below, \nC. left, above, \nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002047/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2048, + "data_source": "SPAR-Bench", + "question": "What is the observer's perspective on the spatial arrangement of the storage cabinet (red bbox) with respect to the cardboard box (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, \nB. right, below, closer\nC. , below, farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002048/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2049, + "data_source": "SPAR-Bench", + "question": "What is the spatial arrangement of the bench (red bbox) compared to the cabinet (blue bbox) from the perspective of the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, closer\nB. left, below, \nC. , below, farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002049/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2050, + "data_source": "SPAR-Bench", + "question": "Where, relative to the observer's viewpoint, is the cabinet (red bbox) located in relation to the box (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, closer\nB. right, above, farther\nC. left, below, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002050/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2051, + "data_source": "SPAR-Bench", + "question": "In the image, describe how the book (red bbox) is located spatially with respect to the marker (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, closer\nB. , above, closer\nC. right, above, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002051/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2052, + "data_source": "SPAR-Bench", + "question": "In the provided image, how is the bag (red bbox) positioned in relation to the windowsill (blue bbox)? Specify the direction from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, closer\nB. left, , farther\nC. right, , closer\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002052/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2053, + "data_source": "SPAR-Bench", + "question": "Describe the positioning of the pillow (red bbox) with respect to the decoration (blue bbox) in the image, based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. , below, closer\nB. left, , closer\nC. left, below, closer\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002053/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2054, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the windowframe (red bbox) relative to the machine (blue bbox) in the image, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, \nB. , below, farther\nC. right, above, closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002054/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2055, + "data_source": "SPAR-Bench", + "question": "Using the observer's frame of reference, describe how the bookshelf (red bbox) is placed concerning the suitcase (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, closer\nB. left, , closer\nC. , above, farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002055/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2056, + "data_source": "SPAR-Bench", + "question": "Where does the counter (red bbox) lie in relation to the cabinet (blue bbox) in the image from the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , closer\nB. left, above, \nC. right, below, \nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002056/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2057, + "data_source": "SPAR-Bench", + "question": "Based on the observer's point of view, how is the light switch (red bbox) oriented in relation to the trash can (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, farther\nB. left, above, \nC. , below, farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002057/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2058, + "data_source": "SPAR-Bench", + "question": "Describe the location of the cabinet (red bbox) with respect to the bag (blue bbox) in the given image, relative to the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, farther\nB. left, below, closer\nC. right, below, closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002058/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2059, + "data_source": "SPAR-Bench", + "question": "Using the image, explain where the table (red bbox) is located relative to the power socket (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , closer\nB. right, below, closer\nC. , above, farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002059/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2060, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, where does the mug (red bbox) appear in relation to the paper (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, closer\nB. left, above, \nC. left, above, closer\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002060/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2061, + "data_source": "SPAR-Bench", + "question": "Describe where the keyboard (red bbox) lies in relation to the outlet (blue bbox) in the image, from the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, farther\nB. left, below, closer\nC. right, above, farther\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002061/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2062, + "data_source": "SPAR-Bench", + "question": "Identify the relative spatial arrangement of the SPLIT (red bbox) and the spray bottle (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, farther\nB. right, above, farther\nC. , above, closer\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002062/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2063, + "data_source": "SPAR-Bench", + "question": "Describe the relative location of the sofa (red bbox) with respect to the window (blue bbox) in the image, as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, \nB. right, below, closer\nC. right, , farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002063/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2064, + "data_source": "SPAR-Bench", + "question": "Where is the bed (red bbox) situated in the image relative to the power socket (blue bbox) from the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, closer\nB. right, below, \nC. left, , closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002064/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2065, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the office chair (red bbox) be found compared to the bottle (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , closer\nB. , above, closer\nC. right, below, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002065/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2066, + "data_source": "SPAR-Bench", + "question": "How does the utensils (red bbox) relate spatially to the sink (blue bbox) in the image, as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, farther\nB. left, below, closer\nC. , below, farther\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002066/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2067, + "data_source": "SPAR-Bench", + "question": "What is the spatial orientation of the window frame (red bbox) compared to the office chair (blue bbox) in the image, relative to the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , closer\nB. , below, closer\nC. , above, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002067/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2068, + "data_source": "SPAR-Bench", + "question": "In the image, what is the relative position of the keyboard (red bbox) to the monitor (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , closer\nB. right, above, closer\nC. right, below, \nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002068/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2069, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, where does the chair (red bbox) appear in relation to the blanket (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, \nB. right, , farther\nC. left, , farther\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002069/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2070, + "data_source": "SPAR-Bench", + "question": "As seen in the image, where is the bag (red bbox) located relative to the bottle (blue bbox) from the observer's point of view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, \nB. right, above, closer\nC. right, , closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002070/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2071, + "data_source": "SPAR-Bench", + "question": "What is the position of the paper towel (red bbox) relative to the cleaning brush (blue bbox) in the image according to the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, closer\nB. left, above, closer\nC. left, , closer\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002071/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2072, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, how does the windowsill (red bbox) align relative to the coffee maker (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, \nB. right, above, closer\nC. right, below, farther\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002072/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2073, + "data_source": "SPAR-Bench", + "question": "Please describe how the bag (red bbox) is oriented relative to the microwave (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, \nB. right, above, farther\nC. right, above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002073/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2074, + "data_source": "SPAR-Bench", + "question": "Identify the relative position of the power socket (red bbox) to the bottles (blue bbox) in the image. Provide the answer based on the observer\u2019s frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, closer\nB. right, , farther\nC. , above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002074/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2075, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how is the chair (red bbox) positioned in comparison to the blackboard (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, , farther\nB. left, , farther\nC. left, below, closer\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002075/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2076, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, how is the dishwasher (red bbox) positioned in relation to the kitchen towel (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , closer\nB. right, , farther\nC. left, , closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002076/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2077, + "data_source": "SPAR-Bench", + "question": "In the provided image, how is the chair (red bbox) positioned in relation to the chair (blue bbox)? Specify the direction from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, closer\nB. right, below, closer\nC. left, , closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002077/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2078, + "data_source": "SPAR-Bench", + "question": "Describe how the box (red bbox) is situated in relation to the power socket (blue bbox) in the image, considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , closer\nB. , above, closer\nC. left, above, closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002078/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2079, + "data_source": "SPAR-Bench", + "question": "From the observer's frame of reference, how is the cardboard (red bbox) spatially situated in relation to the cardboard (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, \nB. right, above, \nC. right, , closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002079/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2080, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, describe the location of the bedside counter (red bbox) in relation to the bedside lamp (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , below, farther\nB. , below, closer\nC. , below, \nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002080/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2081, + "data_source": "SPAR-Bench", + "question": "How does the shelf (red bbox) compare in position to the box (blue bbox) in the given image? Answer relative to the observer's frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. , below, farther\nB. left, below, farther\nC. left, above, closer\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002081/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2082, + "data_source": "SPAR-Bench", + "question": "How does the beanbag (red bbox) compare in position to the light switch (blue bbox) in the given image? Answer relative to the observer's frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, \nB. , above, farther\nC. left, below, closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002082/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2083, + "data_source": "SPAR-Bench", + "question": "In the image, describe how the pan set (red bbox) is located spatially with respect to the bottle (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, \nB. right, above, farther\nC. right, below, \nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002083/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2084, + "data_source": "SPAR-Bench", + "question": "In the provided image, explain the location of the window (red bbox) with respect to the kitchen cabinet (blue bbox), considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, farther\nB. right, , closer\nC. left, above, \nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002084/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2085, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the window (red bbox) be found compared to the sink (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, \nB. right, below, closer\nC. , below, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002085/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2086, + "data_source": "SPAR-Bench", + "question": "Describe the relative positioning of the bath cabinet (red bbox) compared to the smoke detector (blue bbox) in the image, based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, , closer\nB. left, below, farther\nC. , above, farther\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002086/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2087, + "data_source": "SPAR-Bench", + "question": "In the image, where does the telephone (red bbox) lie with respect to the monitor (blue bbox) based on the observer's frame of reference? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, farther\nB. , below, closer\nC. right, , closer\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002087/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2088, + "data_source": "SPAR-Bench", + "question": "In the image, how does the power socket (red bbox) appear spatially in relation to the cabinet (blue bbox), as observed by the viewer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, below, closer\nB. left, , farther\nC. , below, farther\nD. , above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002088/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2089, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is the box (red bbox) situated in relation to the shelf (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , farther\nB. left, above, \nC. right, , farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002089/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2090, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the table (red bbox) be found in relation to the box (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , below, closer\nB. left, , closer\nC. left, above, farther\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002090/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2091, + "data_source": "SPAR-Bench", + "question": "In the given image, identify the location of the monitor (red bbox) relative to the mouse (blue bbox), as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, farther\nB. left, above, closer\nC. right, below, closer\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002091/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2092, + "data_source": "SPAR-Bench", + "question": "Describe how the printer (red bbox) is located compared to the keyboard (blue bbox) in the image, using the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, \nB. left, above, farther\nC. right, , farther\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002092/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2093, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, how is the notice (red bbox) positioned in relation to the machine (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, closer\nB. right, , closer\nC. right, below, farther\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002093/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2094, + "data_source": "SPAR-Bench", + "question": "Describe the relative orientation of the table (red bbox) to the keyboard (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, \nB. left, below, \nC. , below, closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002094/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2095, + "data_source": "SPAR-Bench", + "question": "Describe the location of the SPLIT (red bbox) with respect to the headphone (blue bbox) in the given image, relative to the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, farther\nB. left, below, farther\nC. left, , farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002095/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2096, + "data_source": "SPAR-Bench", + "question": "Considering the observer's point of view, where is the multiplug (red bbox) positioned compared to the book (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , closer\nB. left, below, closer\nC. right, below, farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002096/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2097, + "data_source": "SPAR-Bench", + "question": "Identify the relative spatial arrangement of the bedside counter (red bbox) and the light switch (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , above, closer\nB. right, below, closer\nC. left, above, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002097/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2098, + "data_source": "SPAR-Bench", + "question": "Can you describe the position of the plant (red bbox) relative to the decoration (blue bbox) in the given image? Please base your answer on the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, closer\nB. left, below, \nC. left, , farther\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002098/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2099, + "data_source": "SPAR-Bench", + "question": "Describe the relative positioning of the power socket (red bbox) compared to the box (blue bbox) in the image, based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, farther\nB. left, below, \nC. left, above, farther\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002099/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2100, + "data_source": "SPAR-Bench", + "question": "In terms of spatial relationships, where is the chair (red bbox) located compared to the blinds (blue bbox) in the image? Consider the observer's frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, \nB. right, , closer\nC. right, below, closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002100/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2101, + "data_source": "SPAR-Bench", + "question": "In the image, what is the relative position of the books (red bbox) to the window frame (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, \nB. right, above, farther\nC. right, , closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002101/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2102, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, where does the toilet brush (red bbox) appear relative to the cleaning liquid (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, farther\nB. right, , farther\nC. right, above, closer\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002102/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2103, + "data_source": "SPAR-Bench", + "question": "Where is the cable raceway (red bbox) found relative to the cable raceway (blue bbox) in the image, as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, farther\nB. right, below, farther\nC. left, , \nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002103/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2104, + "data_source": "SPAR-Bench", + "question": "Using the image, explain where the paper (red bbox) is located relative to the blinds (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, closer\nB. left, below, farther\nC. right, , farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002104/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2105, + "data_source": "SPAR-Bench", + "question": "Based on the observer's viewpoint, where is the espresso machine (red bbox) in relation to the kitchen cabinet (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , above, closer\nB. left, below, closer\nC. left, below, farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002105/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2106, + "data_source": "SPAR-Bench", + "question": "Describe the position of the chair (red bbox) concerning the table (blue bbox) in the image, from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, farther\nB. , above, closer\nC. left, below, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002106/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2107, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, describe the location of the whiteboard (red bbox) in relation to the box (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , farther\nB. left, above, \nC. right, , closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002107/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2108, + "data_source": "SPAR-Bench", + "question": "Using the observer's frame of reference, describe how the bag (red bbox) is placed concerning the picture (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, farther\nB. , below, closer\nC. right, above, \nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002108/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2109, + "data_source": "SPAR-Bench", + "question": "How is the electric box (red bbox) oriented spatially in relation to the box (blue bbox) in the image, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, \nB. right, above, \nC. left, above, \nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002109/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2110, + "data_source": "SPAR-Bench", + "question": "In the image, where is the power socket (red bbox) located compared to the light switch (blue bbox) based on the observer's viewpoint? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , closer\nB. left, above, closer\nC. left, below, \nD. , below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002110/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2111, + "data_source": "SPAR-Bench", + "question": "What is the position of the light switch (red bbox) in comparison to the soap dispenser (blue bbox) in the image? Provide the answer as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, closer\nB. , above, farther\nC. right, above, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002111/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2112, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, how does the table (red bbox) align relative to the window sill (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, below, closer\nB. left, , closer\nC. right, below, closer\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002112/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2113, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, where does the cabinet (red bbox) appear in relation to the keyboard (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, closer\nB. right, , farther\nC. left, above, farther\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002113/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2114, + "data_source": "SPAR-Bench", + "question": "Analyze the image and determine the directional relationship between the table (red bbox) and the picture (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, closer\nB. right, below, \nC. left, below, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002114/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2115, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the power socket (red bbox) situated in comparison to the storage cabinet (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, \nB. right, , closer\nC. left, below, farther\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002115/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2116, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of the cabinet (red bbox) with the mirror (blue bbox) in the image? Answer based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , above, closer\nB. right, , closer\nC. left, below, closer\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002116/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2117, + "data_source": "SPAR-Bench", + "question": "What is the spatial orientation of the power socket (red bbox) compared to the blinds (blue bbox) in the image, relative to the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, closer\nB. left, , closer\nC. left, below, closer\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002117/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2118, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the pipe (red bbox) situated in comparison to the computer tower (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, closer\nB. left, below, closer\nC. left, below, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002118/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2119, + "data_source": "SPAR-Bench", + "question": "In the given image, identify the location of the computer tower (red bbox) relative to the electrical duct (blue bbox), as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, \nB. , below, farther\nC. right, above, farther\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002119/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2120, + "data_source": "SPAR-Bench", + "question": "Describe the relative positioning of the light switch (red bbox) compared to the chair (blue bbox) in the image, based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, below, closer\nB. left, above, closer\nC. left, , farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002120/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2121, + "data_source": "SPAR-Bench", + "question": "In the given image, identify the location of the chair (red bbox) relative to the chair (blue bbox), as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , above, closer\nB. left, below, farther\nC. , below, closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002121/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2122, + "data_source": "SPAR-Bench", + "question": "In the provided image, how is the machine (red bbox) positioned in relation to the power socket (blue bbox)? Specify the direction from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, farther\nB. right, above, closer\nC. right, below, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002122/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2123, + "data_source": "SPAR-Bench", + "question": "Considering the observer's point of view, where is the power socket (red bbox) positioned compared to the jacket (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , closer\nB. , below, closer\nC. right, above, \nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002123/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2124, + "data_source": "SPAR-Bench", + "question": "In the provided image, what is the positional relationship of the box (red bbox) to the laptop (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, closer\nB. left, above, \nC. right, below, closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002124/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2125, + "data_source": "SPAR-Bench", + "question": "Identify the relative position of the tap (red bbox) to the sink (blue bbox) in the image. Provide the answer based on the observer\u2019s frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , above, farther\nB. left, below, farther\nC. right, , closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002125/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2126, + "data_source": "SPAR-Bench", + "question": "In the image, describe the spatial relationship between the book (red bbox) and the file (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, farther\nB. left, above, farther\nC. left, below, closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002126/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2127, + "data_source": "SPAR-Bench", + "question": "In the image, describe how the headset (red bbox) is located spatially with respect to the box (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, \nB. , below, closer\nC. right, above, \nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002127/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2128, + "data_source": "SPAR-Bench", + "question": "Based on the observer's point of view, how is the window sill (red bbox) oriented in relation to the table (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, \nB. right, above, farther\nC. left, below, \nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002128/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2129, + "data_source": "SPAR-Bench", + "question": "Where, relative to the observer's viewpoint, is the chair (red bbox) located in relation to the heater (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , closer\nB. left, above, closer\nC. , below, farther\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002129/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2130, + "data_source": "SPAR-Bench", + "question": "What is the observer's perspective on the spatial arrangement of the computer tower (red bbox) with respect to the mouse (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, \nB. , below, farther\nC. left, below, farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002130/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2131, + "data_source": "SPAR-Bench", + "question": "Describe the hairdryer (red bbox) compared to the bottle (blue bbox) in terms of spatial location, relative to the observer's view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, closer\nB. right, above, closer\nC. , above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002131/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2132, + "data_source": "SPAR-Bench", + "question": "Using the image, describe the position of the chair (red bbox) with respect to the window frame (blue bbox) from the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, farther\nB. left, , closer\nC. , above, closer\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002132/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2133, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, how is the light switch (red bbox) located with respect to the utensils (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , above, farther\nB. right, below, \nC. left, , farther\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002133/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2134, + "data_source": "SPAR-Bench", + "question": "How would you describe the position of the trash bin (red bbox) relative to the flush button (blue bbox) in the image? Provide the direction relative to the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , farther\nB. right, above, farther\nC. , above, closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002134/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2135, + "data_source": "SPAR-Bench", + "question": "Where is the plant pot coaster (red bbox) found spatially in comparison to the pillow (blue bbox) in the image, according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, farther\nB. right, above, closer\nC. right, , farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002135/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2136, + "data_source": "SPAR-Bench", + "question": "Describe the relative position of the multiplug (red bbox) to the table (blue bbox) in the image as seen from the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , closer\nB. right, , closer\nC. , above, closer\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002136/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2137, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how is the book (red bbox) positioned in comparison to the book (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , closer\nB. right, , farther\nC. right, below, farther\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002137/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2138, + "data_source": "SPAR-Bench", + "question": "Where does the power socket (red bbox) appear in relation to the printer (blue bbox) in the image from the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , above, closer\nB. left, above, farther\nC. right, below, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002138/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2139, + "data_source": "SPAR-Bench", + "question": "How does the table (red bbox) compare in position to the pedestal fan (blue bbox) in the given image? Answer relative to the observer's frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, closer\nB. right, above, farther\nC. right, above, closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002139/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2140, + "data_source": "SPAR-Bench", + "question": "What is the observer's perspective on the spatial arrangement of the picture (red bbox) with respect to the window (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , closer\nB. , below, closer\nC. left, below, farther\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002140/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2141, + "data_source": "SPAR-Bench", + "question": "In the image, where does the cabinet (red bbox) stand in relation to the keyboard (blue bbox) based on the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, farther\nB. right, below, closer\nC. right, below, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002141/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2142, + "data_source": "SPAR-Bench", + "question": "In the image, what is the relative position of the switch (red bbox) to the light switch (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, closer\nB. , above, \nC. , above, farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002142/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2143, + "data_source": "SPAR-Bench", + "question": "Describe how the folder (red bbox) is located compared to the monitor (blue bbox) in the image, using the observer's point of view. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, above, \nB. right, above, farther\nC. right, , farther\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002143/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2144, + "data_source": "SPAR-Bench", + "question": "In the given image, identify the location of the structure (red bbox) with respect to the electrical duct (blue bbox) based on the observer's direction. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, closer\nB. left, below, farther\nC. right, , farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002144/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2145, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, what is the spatial position of the mug (red bbox) relative to the cushion (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, \nB. right, above, \nC. right, below, closer\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002145/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2146, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the window frame (red bbox) situated in comparison to the bag (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, closer\nB. , above, farther\nC. left, above, \nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002146/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2147, + "data_source": "SPAR-Bench", + "question": "Where is the chair (red bbox) relative to the power strip (blue bbox) in the image, according to the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, closer\nB. left, above, closer\nC. left, above, farther\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002147/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2148, + "data_source": "SPAR-Bench", + "question": "Based on the observer's viewpoint, where is the jacket (red bbox) in relation to the cables (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, \nB. , above, \nC. right, below, farther\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002148/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2149, + "data_source": "SPAR-Bench", + "question": "Describe the relative location of the chair (red bbox) with respect to the window frame (blue bbox) in the image, as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , below, closer\nB. left, below, farther\nC. right, below, \nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002149/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2150, + "data_source": "SPAR-Bench", + "question": "What is the spatial arrangement of the coax socket (red bbox) compared to the table (blue bbox) from the perspective of the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , above, farther\nB. left, above, farther\nC. right, above, farther\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002150/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2151, + "data_source": "SPAR-Bench", + "question": "In the given image, how does the bed (red bbox) compare spatially to the keyboard (blue bbox) from the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , closer\nB. right, , farther\nC. right, below, farther\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002151/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2152, + "data_source": "SPAR-Bench", + "question": "What is the position of the heater (red bbox) in comparison to the cup (blue bbox) in the image? Provide the answer as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, below, \nB. right, below, farther\nC. right, below, closer\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002152/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2153, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, describe the location of the box (red bbox) in relation to the water pipe (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, farther\nB. right, above, farther\nC. , below, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002153/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2154, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, describe the alignment of the counter (red bbox) in relation to the bottle (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, closer\nB. , above, farther\nC. , below, farther\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002154/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2155, + "data_source": "SPAR-Bench", + "question": "In the image, what is the relative position of the chair (red bbox) to the chair (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, closer\nB. left, , farther\nC. left, above, \nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002155/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2156, + "data_source": "SPAR-Bench", + "question": "In the image, how is the bathtub (red bbox) positioned in relation to the bottle (blue bbox), from the observer's view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, closer\nB. right, above, closer\nC. left, above, closer\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002156/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2157, + "data_source": "SPAR-Bench", + "question": "Describe the spatial arrangement of the power socket (red bbox) and the SPLIT (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , farther\nB. left, above, \nC. left, above, farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002157/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2158, + "data_source": "SPAR-Bench", + "question": "Where is the power socket (red bbox) found relative to the chair (blue bbox) in the image, as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, closer\nB. right, above, closer\nC. left, above, farther\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002158/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2159, + "data_source": "SPAR-Bench", + "question": "Can you describe the position of the paper stapler (red bbox) relative to the SPLIT (blue bbox) in the given image? Please base your answer on the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, farther\nB. left, , farther\nC. right, , farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002159/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2160, + "data_source": "SPAR-Bench", + "question": "Analyze the image and state where the files (red bbox) is in relation to the files (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, \nB. right, above, \nC. right, below, \nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002160/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2161, + "data_source": "SPAR-Bench", + "question": "Analyze the image and determine the directional relationship between the books (red bbox) and the books (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, farther\nB. left, below, closer\nC. right, above, \nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002161/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2162, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the pillow (red bbox) be found compared to the picture (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, farther\nB. right, below, closer\nC. right, below, farther\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002162/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2163, + "data_source": "SPAR-Bench", + "question": "As seen in the image, where is the box (red bbox) located relative to the bottle spray (blue bbox) from the observer's point of view? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , farther\nB. left, above, closer\nC. right, below, \nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002163/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2164, + "data_source": "SPAR-Bench", + "question": "Using the image, specify the position of the cheese (red bbox) with respect to the kitchen towel (blue bbox) from the viewpoint of the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, above, farther\nB. right, , farther\nC. left, above, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002164/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2165, + "data_source": "SPAR-Bench", + "question": "How does the SPLIT (red bbox) compare in position to the SPLIT (blue bbox) in the given image? Answer relative to the observer's frame of reference. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , below, closer\nB. right, above, \nC. left, below, farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002165/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2166, + "data_source": "SPAR-Bench", + "question": "Using the image, explain where the board (red bbox) is located relative to the pipe (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, \nB. left, below, farther\nC. right, below, farther\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002166/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2167, + "data_source": "SPAR-Bench", + "question": "From the observer's frame of reference, how is the tap (red bbox) spatially situated in relation to the bottle (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, closer\nB. left, , closer\nC. , below, \nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002167/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2168, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of the microwave (red bbox) with the book (blue bbox) in the image? Answer based on the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , closer\nB. left, above, closer\nC. left, above, farther\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002168/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2169, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, describe the location of the cardboard box (red bbox) in relation to the cardboard box (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, , closer\nB. left, above, \nC. , below, farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002169/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2170, + "data_source": "SPAR-Bench", + "question": "Please describe how the pipe (red bbox) is oriented relative to the laboratory equipment (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, below, \nB. right, below, farther\nC. left, above, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002170/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2171, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how is the beanbag (red bbox) positioned in comparison to the beanbag (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, closer\nB. right, below, farther\nC. right, , closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002171/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2172, + "data_source": "SPAR-Bench", + "question": "Describe the relative location of the lab equipment (red bbox) with respect to the table (blue bbox) in the image, as seen by the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, , closer\nB. right, above, closer\nC. , above, closer\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002172/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2173, + "data_source": "SPAR-Bench", + "question": "Describe the relative orientation of the cabinet (red bbox) to the tote bag (blue bbox) in the image from the observer's perspective. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, below, closer\nB. right, below, farther\nC. left, , farther\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002173/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2174, + "data_source": "SPAR-Bench", + "question": "In the image, how is the office chair (red bbox) spatially oriented in relation to the light switch (blue bbox) from the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, closer\nB. right, above, farther\nC. left, below, closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002174/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2175, + "data_source": "SPAR-Bench", + "question": "In the given image, what is the spatial alignment of the office chair (red bbox) relative to the power socket (blue bbox) as perceived by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , closer\nB. left, below, farther\nC. right, below, \nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002175/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2176, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, describe the spatial orientation of the light switch (red bbox) relative to the utensils (blue bbox) in the image. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, farther\nB. right, , farther\nC. right, above, \nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002176/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2177, + "data_source": "SPAR-Bench", + "question": "Where does the box (red bbox) lie in relation to the multiplug (blue bbox) in the image from the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, farther\nB. , above, farther\nC. right, below, closer\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002177/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2178, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, how is the alligator clips (red bbox) located with respect to the sink pipe (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, closer\nB. left, , farther\nC. right, above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002178/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2179, + "data_source": "SPAR-Bench", + "question": "In the given image, what is the position of the picture (red bbox) relative to the foldable closet (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , closer\nB. , below, closer\nC. right, , closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002179/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2180, + "data_source": "SPAR-Bench", + "question": "Using the image, specify the position of the calendar (red bbox) with respect to the box (blue bbox) from the viewpoint of the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. , above, \nB. left, , farther\nC. left, above, \nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002180/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2181, + "data_source": "SPAR-Bench", + "question": "In the provided image, where is the window (red bbox) in comparison to the machine (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, closer\nB. , above, farther\nC. right, , farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002181/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2182, + "data_source": "SPAR-Bench", + "question": "In the provided image, explain the location of the keyboard (red bbox) with respect to the frame (blue bbox), considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, closer\nB. , above, closer\nC. right, above, closer\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002182/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2183, + "data_source": "SPAR-Bench", + "question": "How would you describe the position of the trash bin (red bbox) relative to the kitchen cabinet (blue bbox) in the image? Provide the direction relative to the observer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, \nB. right, , farther\nC. right, above, closer\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002183/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2184, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, what is the spatial position of the clothes (red bbox) relative to the plug (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, farther\nB. right, above, farther\nC. left, below, closer\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002184/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2185, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, how is the nightstand (red bbox) positioned in relation to the comforter (blue bbox) in the image? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, , closer\nB. left, above, closer\nC. right, above, farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002185/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2186, + "data_source": "SPAR-Bench", + "question": "Where is the book (red bbox) found relative to the windowsill (blue bbox) in the image, as seen by the observer? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. , below, closer\nB. left, below, closer\nC. right, above, \nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002186/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2187, + "data_source": "SPAR-Bench", + "question": "Examine the image and determine the relative position of the laptop (red bbox) to the rolling chair (blue bbox) as observed by the viewer. Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , closer\nB. right, below, farther\nC. left, , closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002187/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2188, + "data_source": "SPAR-Bench", + "question": "Where does the sink (red bbox) lie in relation to the bathroom counter (blue bbox) in the image from the observer's perspective? Calculate or judge based on the 3D center points of these objects.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, farther\nB. right, above, \nC. right, , closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002188/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2189, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between window (red bbox) and the observer? If the observer moves to the 3D center of ledge (green bbox) and faces the 3D center of window (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, front\nB. , above, front\nC. , below, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002189/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2190, + "data_source": "SPAR-Bench", + "question": "How does the relative position of table (red bbox) to the observer change when the observer moves to the center of chair (green bbox) and faces the 3D center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, behind\nB. right, below, behind\nC. right, , behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002190/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2191, + "data_source": "SPAR-Bench", + "question": "Where does window (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to toilet papers 3D center (green bbox) and faces toilets 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, front\nB. right, , behind\nC. right, , front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002191/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2192, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of desk (red bbox) relative to the observer change once the observer moves to the center of shelf (green bbox) and faces the center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, below, front\nB. right, below, behind\nC. , below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002192/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2193, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of chair (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , below, behind\nB. right, below, behind\nC. left, above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002193/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2194, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between recycling bin (red bbox) and the observer before and after the observer moves to tables 3D center (green bbox) and faces racks 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, behind\nB. right, below, front\nC. , above, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002194/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2195, + "data_source": "SPAR-Bench", + "question": "How does the relative position of chair (red bbox) to the observer change when the observer moves to the center of chair (green bbox) and faces the 3D center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, \nB. right, below, front\nC. left, , front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002195/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2196, + "data_source": "SPAR-Bench", + "question": "How does the relative position of bottle (red bbox) to the observer shift when the observer moves to the 3D center of trash can (green bbox) and faces the 3D center of sink (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, front\nB. left, , front\nC. , above, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002196/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2197, + "data_source": "SPAR-Bench", + "question": "If the observer first perceives bench (red bbox) in a specific direction, how does the relationship change when the observer moves to bench\u2019s center (green bbox) and faces whiteboard\u2019s center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, front\nB. right, , behind\nC. left, , behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002197/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2198, + "data_source": "SPAR-Bench", + "question": "How does the relative position of pillow (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of pillow (green bbox) and faces suitcase (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, \nB. right, , behind\nC. , below, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002198/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2199, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of shelf (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of chair (green bbox) and faces trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, behind\nB. left, above, front\nC. right, above, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002199/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2200, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is trash can (red bbox)? How does this relationship shift once the observer moves to trash can\u2019s 3D center (green bbox) and faces table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, \nB. , below, behind\nC. right, below, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002200/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2201, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of shelf (red bbox) to the observer shift when the observer moves from their original position to stair rail\u2019s 3D center (green bbox) and faces board (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, \nB. right, below, front\nC. right, above, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002201/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2202, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of kitchen island (green bbox) and orientation toward kitchen cabinet (blue bbox) affect the spatial relationship between kitchen cabinet (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, front\nB. left, below, behind\nC. left, below, \nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002202/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2203, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of cup (green bbox) and faces refrigerator (blue bbox), where is cup (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, behind\nB. left, above, \nC. left, , \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002203/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2204, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between lamp (red bbox) and the observer change when the observer moves to the center of armchair (green bbox) and faces table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, , front\nB. , above, front\nC. left, below, behind\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002204/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2205, + "data_source": "SPAR-Bench", + "question": "If the observer first perceives bathroom stall door (red bbox) in a specific direction, how does the relationship change when the observer moves to bathroom stall\u2019s center (green bbox) and faces bathroom stall\u2019s center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, , front\nB. left, below, behind\nC. left, above, behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002205/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2206, + "data_source": "SPAR-Bench", + "question": "How does the relative position of lamp (red bbox) to the observer shift when the observer moves to the 3D center of table (green bbox) and faces the 3D center of couch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, \nB. left, above, front\nC. left, , behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002206/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2207, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between chair (red bbox) and the observer? If the observer moves to the 3D center of chair (green bbox) and faces the 3D center of chair (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, front\nB. left, , front\nC. right, , front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002207/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2208, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between table (red bbox) and the observer? If the observer moves to the 3D center of chair (green bbox) and faces the 3D center of telephone (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , below, front\nB. right, , front\nC. right, above, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002208/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2209, + "data_source": "SPAR-Bench", + "question": "What is the position of laundry hamper (red bbox) relative to the observer both before and after the observer moves to the 3D center of trash can (green bbox) and faces machine (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , front\nB. right, above, \nC. right, above, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002209/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2210, + "data_source": "SPAR-Bench", + "question": "Where does box (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to boxs 3D center (green bbox) and faces bookshelfs 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, \nB. left, below, \nC. left, above, front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002210/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2211, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is paper towel dispenser (red bbox)? How does this relationship shift once the observer moves to cup\u2019s 3D center (green bbox) and faces sink (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, front\nB. left, above, front\nC. left, , behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002211/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2212, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of cabinet (green bbox) and facing desk (blue bbox), where is office chair (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , behind\nB. right, below, \nC. left, above, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002212/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2213, + "data_source": "SPAR-Bench", + "question": "If the observer moves to mats 3D center (green bbox) and faces sinks 3D center (blue bbox), how does toilet (red bbox) shift in relation to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, front\nB. right, below, front\nC. , above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002213/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2214, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is chair (red bbox)? How does this relationship shift once the observer moves to chair\u2019s 3D center (green bbox) and faces table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, \nB. left, , front\nC. right, above, \nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002214/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2215, + "data_source": "SPAR-Bench", + "question": "If the observer moves to recycling bins 3D center (green bbox) and faces shelfs 3D center (blue bbox), how does compost bin (red bbox) shift in relation to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , below, front\nB. right, , behind\nC. right, , front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002215/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2216, + "data_source": "SPAR-Bench", + "question": "Where is trash can (red bbox) in relation to the observer before and after the observer moves to pillow\u2019s 3D center (green bbox) and faces whiteboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, \nB. left, , behind\nC. left, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002216/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2217, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of curtain (red bbox) to the observer shift when the observer moves from their original position to radiator\u2019s 3D center (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, \nB. , above, front\nC. left, below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002217/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2218, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of books (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of books (green bbox) and faces books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , below, front\nB. right, above, behind\nC. left, , behind\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002218/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2219, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of bed (red bbox) to the observer before and after the observer moves to the 3D center of desk (green bbox) and faces the center of chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, front\nB. , below, behind\nC. right, , front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002219/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2220, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to whiteboards 3D center (green bbox) and faces tables 3D center (blue bbox), what is the relationship between the observer and bench (red bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, \nB. right, below, \nC. right, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002220/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2221, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is pillow (red bbox)? How does the position of pillow change once the observer moves to the center of nightstand (green bbox) and faces the 3D center of bed (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, front\nB. right, below, behind\nC. left, below, \nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002221/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2222, + "data_source": "SPAR-Bench", + "question": "Where does compost bin (red bbox) stand in relation to the observer\u2019s initial position? After the observer moves to the center of window (green bbox) and faces the center of trash bin (blue bbox), where does compost bin lie? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, below, behind\nB. right, below, \nC. right, below, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002222/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2223, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of toilet (green bbox) and orientation toward trash can (blue bbox) affect the spatial relationship between toilet paper (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, \nB. , below, behind\nC. right, above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002223/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2224, + "data_source": "SPAR-Bench", + "question": "Where is bathroom vanity (red bbox) located relative to the observer initially? After the observer moves to the center of bottle (green bbox) and faces trash can (blue bbox), how is the position of bathroom vanity (red bbox) altered? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, front\nB. , below, front\nC. left, , front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002224/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2225, + "data_source": "SPAR-Bench", + "question": "If the observer first perceives monitor (red bbox) in a specific direction, how does the relationship change when the observer moves to window\u2019s center (green bbox) and faces chair\u2019s center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, behind\nB. left, below, front\nC. right, below, front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002225/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2226, + "data_source": "SPAR-Bench", + "question": "If the observer moves to backpacks 3D center (green bbox) and faces suitcases 3D center (blue bbox), how does cabinet (red bbox) shift in relation to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, front\nB. right, above, \nC. , above, behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002226/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2227, + "data_source": "SPAR-Bench", + "question": "What happens to the position of refrigerator (red bbox) in relation to the observer after they move to the 3D center of kitchen cabinet (green bbox) and face the center of kitchen island (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , \nB. , above, front\nC. , above, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002227/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2228, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between tray (red bbox) and the observer before and after the observer moves to chairs 3D center (green bbox) and faces carts 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, \nB. left, below, behind\nC. right, below, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002228/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2229, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of wood (green bbox) and orientation toward radiator (blue bbox) affect the spatial relationship between wood (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, behind\nB. left, , \nC. right, below, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002229/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2230, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of column (red bbox) to the observer before and after the observer moves to the 3D center of column (green bbox) and faces the center of chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, , front\nB. left, above, \nC. left, , behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002230/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2231, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is lamp (red bbox)? How does the position of lamp change once the observer moves to the center of ottoman (green bbox) and faces the 3D center of end table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, front\nB. left, below, behind\nC. left, below, front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002231/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2232, + "data_source": "SPAR-Bench", + "question": "What is the position of refrigerator (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of chair (green bbox) and faces table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, behind\nB. left, above, \nC. right, , behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002232/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2233, + "data_source": "SPAR-Bench", + "question": "What is the position of kitchen cabinet (red bbox) from the observer\u2019s viewpoint before and after the observer moves to the 3D center of backpack (green bbox) and faces bag (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, front\nB. , above, front\nC. right, , front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002233/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2234, + "data_source": "SPAR-Bench", + "question": "How does the relative position of desk (red bbox) to the observer change after the observer shifts to the 3D center of laptop (green bbox) and faces the 3D center of laundry hamper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, front\nB. , below, front\nC. left, , front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002234/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2235, + "data_source": "SPAR-Bench", + "question": "How does the position of chair (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, front\nB. left, , front\nC. , above, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002235/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2236, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of trash can (green bbox) and orientation toward towel (blue bbox) affect the spatial relationship between bathroom vanity (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, \nB. left, above, front\nC. , below, behind\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002236/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2237, + "data_source": "SPAR-Bench", + "question": "How does the positional relationship of kitchen cabinets (red bbox) to the observer evolve once the observer shifts to the 3D center of kitchen counter (green bbox) and faces kitchen cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, , behind\nB. left, below, behind\nC. , below, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002237/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2238, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between trash can (red bbox) and the observer before and after the observer moves to chairs 3D center (green bbox) and faces tables 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , front\nB. left, below, front\nC. right, below, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002238/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2239, + "data_source": "SPAR-Bench", + "question": "Where is office chair (red bbox) located relative to the observer initially? After the observer moves to the center of desk (green bbox) and faces curtains (blue bbox), how is the position of office chair (red bbox) altered? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, behind\nB. , below, behind\nC. left, below, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002239/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2240, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between chair (red bbox) and the observer changes after the observer moves to the 3D center of chair (green bbox) and faces backpack (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, behind\nB. left, above, \nC. left, , front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002240/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2241, + "data_source": "SPAR-Bench", + "question": "Where is chair (red bbox) in relation to the observer before they move to the 3D center of seating (green bbox) and face chair (blue bbox)? After the movement, where is chair positioned? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, front\nB. left, , front\nC. right, , front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002241/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2242, + "data_source": "SPAR-Bench", + "question": "If the observer first perceives jacket (red bbox) in a specific direction, how does the relationship change when the observer moves to box\u2019s center (green bbox) and faces chair\u2019s center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, \nB. left, , front\nC. , below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002242/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2243, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of box (red bbox) relative to the observer before they move to the center of trash can (green bbox) and face water cooler (blue bbox)? After moving, where does box stand? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, \nB. , above, behind\nC. left, above, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002243/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2244, + "data_source": "SPAR-Bench", + "question": "What is the position of monitor (red bbox) from the observer\u2019s viewpoint before and after the observer moves to the 3D center of box (green bbox) and faces file cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , behind\nB. , below, behind\nC. left, , behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002244/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2245, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between books (red bbox) and the observer after the observer moves to the center of chair (green bbox) and faces table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , behind\nB. , above, behind\nC. right, , behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002245/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2246, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is bathroom stall door (red bbox) relative to the observer? After the observer moves to the center of bathroom stall door (green bbox) and faces toilet (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, , front\nB. , below, front\nC. , above, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002246/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2247, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship of armchair (red bbox) relative to the observer\u2019s initial position? How does this relationship change once the observer shifts to the 3D center of trash can (green bbox) and faces the 3D center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, behind\nB. right, below, \nC. right, above, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002247/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2248, + "data_source": "SPAR-Bench", + "question": "How does the relative position of chair (red bbox) to the observer change after the observer shifts to the 3D center of chair (green bbox) and faces the 3D center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, below, behind\nB. , below, behind\nC. left, , behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002248/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2249, + "data_source": "SPAR-Bench", + "question": "What is the position of table (red bbox) relative to the observer both before and after the observer moves to the 3D center of chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , behind\nB. left, , front\nC. right, , front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002249/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2250, + "data_source": "SPAR-Bench", + "question": "Where does chair (red bbox) stand in relation to the observer\u2019s initial position? After the observer moves to the center of chair (green bbox) and faces the center of chair (blue bbox), where does chair lie? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, behind\nB. right, , front\nC. , above, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002250/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2251, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of oven (green bbox) and faces bag of coffee beans (blue bbox), where is coffee maker (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , front\nB. right, above, front\nC. right, above, \nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002251/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2252, + "data_source": "SPAR-Bench", + "question": "Where is fuse box (red bbox) in relation to the observer before and after the observer moves to bucket\u2019s 3D center (green bbox) and faces furnace (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, , front\nB. right, above, \nC. right, above, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002252/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2253, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of chair (green bbox) and faces chair (blue bbox), where is table (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , behind\nB. , below, front\nC. right, , front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002253/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2254, + "data_source": "SPAR-Bench", + "question": "Where does storage bin (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to storage bins 3D center (green bbox) and faces stands 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, \nB. right, , front\nC. , below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002254/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2255, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of radiator (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of chair (green bbox) and faces windowsill (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, below, front\nB. right, , front\nC. left, above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002255/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2256, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of couch (red bbox) relative to the observer change once the observer moves to the center of table (green bbox) and faces the center of ottoman (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , front\nB. left, , behind\nC. right, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002256/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2257, + "data_source": "SPAR-Bench", + "question": "How does the relative position of table (red bbox) to the observer shift when the observer moves to the 3D center of box (green bbox) and faces the 3D center of bench (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, \nB. left, below, front\nC. right, , behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002257/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2258, + "data_source": "SPAR-Bench", + "question": "What direction is suitcase (red bbox) from the observer initially? If the observer moves to the 3D center of backpack (green bbox) and faces cabinet (blue bbox), where is suitcase now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , above, front\nB. , below, front\nC. , above, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002258/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2259, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of sink (red bbox) to the observer shift when the observer moves from their original position to cabinet\u2019s 3D center (green bbox) and faces laundry detergent (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, behind\nB. left, above, behind\nC. left, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002259/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2260, + "data_source": "SPAR-Bench", + "question": "What is the position of toilet paper dispenser (red bbox) relative to the observer both before and after the observer moves to the 3D center of rail (green bbox) and faces toilet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, , front\nB. left, above, front\nC. left, below, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002260/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2261, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between trash bin (red bbox) and the observer change when the observer moves to the center of dispenser (green bbox) and faces toilet paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. , below, front\nB. left, below, behind\nC. left, above, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002261/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2262, + "data_source": "SPAR-Bench", + "question": "Where is chair (red bbox) initially from the observers perspective? How does the position of chair change once the observer moves to the center of chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , behind\nB. right, above, front\nC. right, , front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002262/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2263, + "data_source": "SPAR-Bench", + "question": "Describe where nightstand (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to curtains 3D center (green bbox) and faces bags 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, front\nB. left, , behind\nC. left, , front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002263/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2264, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of windowsill (green bbox) and faces table (blue bbox), where is chair (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, front\nB. right, below, behind\nC. left, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002264/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2265, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of pillow (green bbox) and orientation toward night lamp (blue bbox) affect the spatial relationship between nightstand (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , below, front\nB. right, below, front\nC. right, , behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002265/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2266, + "data_source": "SPAR-Bench", + "question": "Where does chair (red bbox) stand in relation to the observer\u2019s initial position? After the observer moves to the center of chair (green bbox) and faces the center of chair (blue bbox), where does chair lie? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , above, behind\nB. left, , behind\nC. left, , front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002266/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2267, + "data_source": "SPAR-Bench", + "question": "What is the position of bathroom stall door (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of toilet (green bbox) and faces bathroom stall (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, above, \nB. , below, behind\nC. right, below, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002267/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2268, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of whiteboard (green bbox) and orientation toward plant (blue bbox) affect the positioning of chair (red bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , above, behind\nB. right, above, \nC. right, below, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002268/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2269, + "data_source": "SPAR-Bench", + "question": "Where does chair (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to couchs 3D center (green bbox) and faces chairs 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, front\nB. right, above, \nC. , below, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002269/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2270, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is cabinet (red bbox)? How does the position of cabinet change once the observer moves to the center of shelf (green bbox) and faces the 3D center of radiator (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, \nB. left, above, \nC. left, below, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002270/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2271, + "data_source": "SPAR-Bench", + "question": "Before moving to the 3D center of chair (green bbox) and facing chair (blue bbox), where does table (red bbox) lie in relation to the observer? What about after the movement? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. , above, front\nB. right, below, \nC. right, below, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002271/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2272, + "data_source": "SPAR-Bench", + "question": "What is the position of trash can (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of mat (green bbox) and faces toilet paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, \nB. left, below, behind\nC. left, , front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002272/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2273, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of cooler (red bbox) relative to the observer change once the observer moves to the center of printer (green bbox) and faces the center of laptop (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, \nB. left, above, behind\nC. left, , behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002273/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2274, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of chair (green bbox) and orientation toward chair (blue bbox) affect the spatial relationship between backpack (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , above, \nB. right, above, \nC. right, below, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002274/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2275, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of window (green bbox) and faces office chair (blue bbox), where is office chair (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, , behind\nB. right, , front\nC. , above, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002275/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2276, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of toilet (red bbox) to the observer shift when the observer moves from their original position to bathroom stall door\u2019s 3D center (green bbox) and faces bathroom stall (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, behind\nB. left, below, front\nC. , above, behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002276/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2277, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is tv stand (red bbox) relative to the observer? After the observer moves to the center of plant (green bbox) and faces window (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , front\nB. , above, front\nC. left, below, behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002277/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2278, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of rail (green bbox) and faces chair (blue bbox), what change occurs in the position of stairs (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, front\nB. , below, front\nC. left, above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002278/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2279, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of table (green bbox) and orientation toward chair (blue bbox) affect the spatial relationship between chair (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , front\nB. left, above, front\nC. right, below, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002279/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2280, + "data_source": "SPAR-Bench", + "question": "How does the relative position of toilet paper (red bbox) to the observer shift when the observer moves to the 3D center of trash can (green bbox) and faces the 3D center of toilet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, \nB. right, above, behind\nC. right, above, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002280/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2281, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of file cabinet (red bbox) relative to the observer before they move to the center of couch (green bbox) and face cabinet (blue bbox)? After moving, where does file cabinet stand? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, front\nB. right, below, \nC. right, above, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002281/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2282, + "data_source": "SPAR-Bench", + "question": "Where is chair (red bbox) in relation to the observer before they move to the 3D center of desk (green bbox) and face headphones (blue bbox)? After the movement, where is chair positioned? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , front\nB. left, above, front\nC. right, below, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002282/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2283, + "data_source": "SPAR-Bench", + "question": "Where is box (red bbox) in relation to the observer before they move to the 3D center of cabinet (green bbox) and face box (blue bbox)? After the movement, where is box positioned? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, front\nB. right, above, behind\nC. left, below, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002283/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2284, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of table (green bbox) and facing picture (blue bbox), where does couch (red bbox) lie in relation to the observer? After moving, where is couch now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , below, front\nB. right, above, \nC. left, , behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002284/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2285, + "data_source": "SPAR-Bench", + "question": "Describe where monitor (red bbox) is located from the observer\u2019s point of view before and after the observer moves to the 3D center of desk (green bbox) and faces office chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , above, front\nB. , below, behind\nC. right, above, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002285/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2286, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between chair (red bbox) and the observer change when the observer moves to the center of chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , front\nB. left, below, front\nC. , above, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002286/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2287, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between pillow (red bbox) and the observer? If the observer moves to the 3D center of bed (green bbox) and faces the 3D center of blanket (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, \nB. right, above, front\nC. , above, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002287/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2288, + "data_source": "SPAR-Bench", + "question": "Where is couch (red bbox) initially from the observers perspective? How does the position of couch change once the observer moves to the center of jacket (green bbox) and faces pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , front\nB. left, below, front\nC. right, below, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002288/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2289, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between recycling bin (red bbox) and the observer changes after the observer moves to the 3D center of counter (green bbox) and faces window (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, front\nB. right, below, front\nC. left, below, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002289/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2290, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of picture (green bbox) and faces picture (blue bbox), where is picture (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, behind\nB. right, , front\nC. left, above, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002290/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2291, + "data_source": "SPAR-Bench", + "question": "How does the relative position of chair (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of table (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , above, behind\nB. left, , front\nC. left, above, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002291/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2292, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between ironing board (red bbox) and the observer? If the observer moves to the 3D center of bench (green bbox) and faces the 3D center of shoes (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, behind\nB. right, below, front\nC. right, above, behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002292/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2293, + "data_source": "SPAR-Bench", + "question": "Describe where lamp (red bbox) is located from the observer\u2019s point of view before and after the observer moves to the 3D center of table (green bbox) and faces picture (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, front\nB. right, above, front\nC. left, above, \nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002293/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2294, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of monitor (green bbox) and facing keyboard (blue bbox), where is chair (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, behind\nB. left, , front\nC. , below, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002294/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2295, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of shelf (green bbox) and faces breakfast bar (blue bbox), what change occurs in the position of jacket (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, \nB. right, above, behind\nC. right, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002295/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2296, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to mats 3D center (green bbox) and faces toilets 3D center (blue bbox), what is the relationship between the observer and picture (red bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, front\nB. left, below, \nC. left, below, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002296/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2297, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of mailbox (red bbox) to the observer shift when the observer moves from their original position to copier\u2019s 3D center (green bbox) and faces cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, front\nB. right, , front\nC. right, below, behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002297/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2298, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of stand (green bbox) and faces clothing rack (blue bbox), how does the relative location of box (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , below, front\nB. right, above, \nC. , above, behind\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002298/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2299, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between pillow (red bbox) and the observer changes after the observer moves to the 3D center of pillow (green bbox) and faces bed (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, behind\nB. right, , front\nC. left, , front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002299/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2300, + "data_source": "SPAR-Bench", + "question": "Describe where box (red bbox) is located from the observer\u2019s point of view before and after the observer moves to the 3D center of file cabinet (green bbox) and faces monitor (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , front\nB. right, above, front\nC. right, below, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002300/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2301, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between table (red bbox) and the observer changes after the observer moves to the 3D center of table (green bbox) and faces chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , behind\nB. right, , front\nC. left, below, \nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002301/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2302, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of shelf (red bbox) to the observer before and after the observer moves to the 3D center of vacuum cleaner (green bbox) and faces the center of table (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, front\nB. left, above, front\nC. right, , behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002302/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2303, + "data_source": "SPAR-Bench", + "question": "How does the relative position of shoes (red bbox) to the observer change after the observer shifts to the 3D center of dresser (green bbox) and faces the 3D center of desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , above, front\nB. right, below, front\nC. left, below, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002303/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2304, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of pillow (green bbox) and orientation toward night lamp (blue bbox) affect the spatial relationship between nightstand (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , behind\nB. left, above, behind\nC. right, below, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002304/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2305, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of chair (green bbox) and facing chair (blue bbox), where is desk (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, above, front\nB. left, above, front\nC. left, , behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002305/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2306, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of books (green bbox) and facing monitor (blue bbox), where does papers (red bbox) lie in relation to the observer? After moving, where is papers now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , above, front\nB. , below, behind\nC. right, below, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002306/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2307, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between desk (red bbox) and the observer change when the observer moves to the center of laundry hamper (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, front\nB. , below, behind\nC. right, above, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002307/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2308, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of chair (green bbox) and orientation toward windowsill (blue bbox) affect the positioning of chair (red bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, front\nB. right, above, front\nC. right, below, behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002308/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2309, + "data_source": "SPAR-Bench", + "question": "How does the relative position of dresser (red bbox) to the observer change when the observer moves to the center of chair (green bbox) and faces the 3D center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , front\nB. left, above, front\nC. , above, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002309/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2310, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of tissue box (green bbox) and facing bathroom vanity (blue bbox), where does toilet (red bbox) lie in relation to the observer? After moving, where is toilet now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , below, front\nB. left, , front\nC. left, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002310/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2311, + "data_source": "SPAR-Bench", + "question": "What direction is chair (red bbox) from the observer initially? If the observer moves to the 3D center of chair (green bbox) and faces chair (blue bbox), where is chair now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, \nB. left, above, \nC. right, , front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002311/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2312, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of chair (green bbox) and orientation toward chair (blue bbox) affect the spatial relationship between chair (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, front\nB. right, above, behind\nC. left, above, behind\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002312/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2313, + "data_source": "SPAR-Bench", + "question": "How does the relative position of monitor (red bbox) to the observer change when the observer moves to the center of table (green bbox) and faces the 3D center of monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, front\nB. , below, front\nC. , below, behind\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002313/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2314, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of chair (green bbox) and faces chair (blue bbox), how does the relative location of cabinet (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , above, front\nB. left, above, \nC. right, above, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002314/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2315, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of recycling bin (red bbox) relative to the observer change once the observer moves to the center of shelf (green bbox) and faces the center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, below, front\nB. right, above, behind\nC. , below, behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002315/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2316, + "data_source": "SPAR-Bench", + "question": "What is the position of bathroom vanity (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of toilet (green bbox) and faces bathroom stall door (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, front\nB. right, , front\nC. left, , front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002316/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2317, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of kitchen cabinet (red bbox) relative to the observer change once the observer moves to the center of microwave (green bbox) and faces the center of refrigerator (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, front\nB. , above, behind\nC. right, above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002317/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2318, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to pillows 3D center (green bbox) and faces nightstands 3D center (blue bbox), what is the relationship between the observer and lamp (red bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, \nB. left, , front\nC. left, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002318/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2319, + "data_source": "SPAR-Bench", + "question": "Describe where trash can (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to cabinets 3D center (green bbox) and faces cabinets 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , front\nB. , below, front\nC. , above, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002319/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2320, + "data_source": "SPAR-Bench", + "question": "Where is chair (red bbox) in relation to the observer before they move to the 3D center of telephone (green bbox) and face table (blue bbox)? After the movement, where is chair positioned? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, behind\nB. right, below, front\nC. right, above, \nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002320/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2321, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is sink (red bbox)? How does this relationship shift once the observer moves to breakfast bar\u2019s 3D center (green bbox) and faces rice cooker (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, front\nB. right, above, behind\nC. left, , behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002321/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2322, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of chair (green bbox) and faces chair (blue bbox), what change occurs in the position of window (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , below, behind\nB. right, , behind\nC. left, below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002322/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2323, + "data_source": "SPAR-Bench", + "question": "How does the relative position of ottoman (red bbox) to the observer shift when the observer moves to the 3D center of couch (green bbox) and faces the 3D center of end table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, behind\nB. , below, front\nC. right, below, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002323/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2324, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of desk (green bbox) and faces radiator (blue bbox), how does the relative location of chair (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, \nB. , below, behind\nC. left, , front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002324/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2325, + "data_source": "SPAR-Bench", + "question": "Where does windowsill (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to cabinets 3D center (green bbox) and faces boxs 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, front\nB. right, below, behind\nC. left, below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002325/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2326, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is instrument case (red bbox)? How does the position of instrument case change once the observer moves to the center of dresser (green bbox) and faces the 3D center of instrument case (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, \nB. , above, front\nC. left, below, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002326/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2327, + "data_source": "SPAR-Bench", + "question": "Where is shower curtain (red bbox) located from the observer\u2019s point of view initially? After the observer moves to the 3D center of rail (green bbox) and faces bottle (blue bbox), where does shower curtain lie? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, \nB. left, below, front\nC. right, above, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002327/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2328, + "data_source": "SPAR-Bench", + "question": "Where does compost bin (red bbox) stand in relation to the observer\u2019s initial position? After the observer moves to the center of chair (green bbox) and faces the center of power outlet (blue bbox), where does compost bin lie? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , front\nB. right, above, behind\nC. , below, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002328/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2329, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of sink (green bbox) and faces trash can (blue bbox), where is recycling bin (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, , front\nB. left, below, \nC. left, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002329/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2330, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is office chair (red bbox)? How does this relationship shift once the observer moves to table\u2019s 3D center (green bbox) and faces office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, , front\nB. right, above, front\nC. right, below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002330/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2331, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship of printer (red bbox) relative to the observer\u2019s initial position? How does this relationship change once the observer shifts to the 3D center of paper cutter (green bbox) and faces the 3D center of computer tower (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , below, front\nB. left, below, \nC. , above, \nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002331/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2332, + "data_source": "SPAR-Bench", + "question": "How does the relative position of couch (red bbox) to the observer change when the observer moves to the center of ottoman (green bbox) and faces the 3D center of couch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, front\nB. right, below, front\nC. left, above, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002332/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2333, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of chair (green bbox) and faces kitchen cabinets (blue bbox), where is oven (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , behind\nB. left, , behind\nC. left, below, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002333/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2334, + "data_source": "SPAR-Bench", + "question": "What is the position of cabinets (red bbox) relative to the observer both before and after the observer moves to the 3D center of cabinets (green bbox) and faces printer (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , above, front\nB. left, below, \nC. right, above, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002334/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2335, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of desk (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of keyboard (green bbox) and faces computer tower (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, behind\nB. left, below, front\nC. right, , behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002335/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2336, + "data_source": "SPAR-Bench", + "question": "What is the position of table (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of curtain (green bbox) and faces curtain (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, behind\nB. right, , behind\nC. , above, behind\nD. , below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002336/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2337, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of towel (green bbox) and orientation toward knife block (blue bbox) affect the spatial relationship between stove (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, front\nB. left, below, front\nC. right, , front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002337/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2338, + "data_source": "SPAR-Bench", + "question": "Where is sink (red bbox) initially from the observers perspective? How does the position of sink change once the observer moves to the center of soap dispenser (green bbox) and faces sink (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, front\nB. , below, front\nC. left, above, \nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002338/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2339, + "data_source": "SPAR-Bench", + "question": "What is the position of monitor (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of monitor (green bbox) and faces book (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, front\nB. right, below, front\nC. , below, behind\nD. left, , \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002339/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2340, + "data_source": "SPAR-Bench", + "question": "If the observer moves to pillows 3D center (green bbox) and faces pillows 3D center (blue bbox), how does pillow (red bbox) shift in relation to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, , front\nB. right, above, front\nC. , below, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002340/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2341, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is chair (red bbox)? After the observer moves to the center of chair (green bbox) and faces chair (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, front\nB. left, , front\nC. right, below, \nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002341/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2342, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of chair (green bbox) and faces shelf (blue bbox), what change occurs in the position of fuse box (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, front\nB. left, above, front\nC. left, below, \nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002342/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2343, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of chair (green bbox) and facing chair (blue bbox), where does table (red bbox) lie in relation to the observer? After moving, where is table now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. , above, front\nB. left, below, behind\nC. right, , front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002343/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2344, + "data_source": "SPAR-Bench", + "question": "What direction is sink (red bbox) from the observer initially? If the observer moves to the 3D center of bathroom cabinet (green bbox) and faces toilet (blue bbox), where is sink now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, below, behind\nB. left, above, front\nC. left, , behind\nD. , above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002344/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2345, + "data_source": "SPAR-Bench", + "question": "What is the position of books (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of books (green bbox) and faces books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , below, behind\nB. left, below, \nC. , above, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002345/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2346, + "data_source": "SPAR-Bench", + "question": "How does the relative position of toilet paper holder (red bbox) to the observer change when the observer moves to the center of rail (green bbox) and faces the 3D center of trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, \nB. right, below, front\nC. , above, behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002346/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2347, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of chair (red bbox) to the observer shift when the observer moves from their original position to chair\u2019s 3D center (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , behind\nB. right, above, front\nC. left, below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002347/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2348, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of cabinet (green bbox) and faces desk (blue bbox), where is chair (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , above, behind\nB. , above, front\nC. left, , front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002348/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2349, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of chair (green bbox) and facing table (blue bbox), where is chair (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, front\nB. , below, behind\nC. right, , behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002349/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2350, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of chair (green bbox) and facing tissue box (blue bbox), where is box (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , front\nB. left, , front\nC. , below, \nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002350/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2351, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of shelf (green bbox) and faces board (blue bbox), what change occurs in the position of rail (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , above, behind\nB. right, below, \nC. left, above, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002351/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2352, + "data_source": "SPAR-Bench", + "question": "Where is table (red bbox) located relative to the observer initially? After the observer moves to the center of windowsill (green bbox) and faces chair (blue bbox), how is the position of table (red bbox) altered? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, behind\nB. right, , behind\nC. right, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002352/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2353, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to thermostats 3D center (green bbox) and faces chairs 3D center (blue bbox), what is the relationship between the observer and monitor (red bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , below, front\nB. right, , front\nC. left, , behind\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002353/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2354, + "data_source": "SPAR-Bench", + "question": "If the observer moves to bowls 3D center (green bbox) and faces laptops 3D center (blue bbox), how does jar (red bbox) shift in relation to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, behind\nB. right, below, front\nC. right, , front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002354/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2355, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of light switch (green bbox) and faces the center of coffee maker (blue bbox), how does the positional relationship between bag (red bbox) and the observer transform? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. , above, front\nB. , below, behind\nC. , below, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002355/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2356, + "data_source": "SPAR-Bench", + "question": "How does the position of pillow (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of pillow (green bbox) and faces couch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, \nB. right, , front\nC. right, below, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002356/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2357, + "data_source": "SPAR-Bench", + "question": "Where is table (red bbox) located from the observer\u2019s point of view initially? After the observer moves to the 3D center of chair (green bbox) and faces chair (blue bbox), where does table lie? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , front\nB. left, above, front\nC. right, , front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002357/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2358, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of speaker (green bbox) and faces computer tower (blue bbox), how does the relative location of monitor (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, \nB. left, , front\nC. left, , behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002358/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2359, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of chair (green bbox) and faces chair (blue bbox), what change occurs in the position of chair (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, below, behind\nB. left, below, \nC. left, above, \nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002359/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2360, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of chair (green bbox) and faces chair (blue bbox), where is chair (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, behind\nB. right, , front\nC. , below, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002360/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2361, + "data_source": "SPAR-Bench", + "question": "Where does trash can (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to sinks 3D center (green bbox) and faces toilet papers 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, behind\nB. right, above, behind\nC. left, , behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002361/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2362, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of whiteboard (red bbox) to the observer shift when the observer moves from their original position to chair\u2019s 3D center (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, behind\nB. , above, behind\nC. right, , front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002362/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2363, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between beer bottles (red bbox) and the observer change when the observer moves to the center of refrigerator (green bbox) and faces water bottle (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, front\nB. , below, behind\nC. left, , behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002363/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2364, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of box (green bbox) and faces table (blue bbox), how does the relative location of curtain (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, front\nB. right, above, \nC. left, above, \nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002364/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2365, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship of nightstand (red bbox) relative to the observer\u2019s initial position? How does this relationship change once the observer shifts to the 3D center of pillow (green bbox) and faces the 3D center of dollhouse (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, front\nB. right, below, \nC. , below, behind\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002365/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2366, + "data_source": "SPAR-Bench", + "question": "What change occurs in the spatial relationship between the observer and kitchen cabinets (red bbox) when the observer shifts from their original position to the 3D center of sink (green bbox) and faces kitchen cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, front\nB. right, above, behind\nC. left, above, \nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002366/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2367, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is laptop (red bbox)? How does this relationship shift once the observer moves to monitor\u2019s 3D center (green bbox) and faces window (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , above, behind\nB. , below, behind\nC. right, below, behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002367/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2368, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of chair (red bbox) to the observer before and after the observer moves to the 3D center of chair (green bbox) and faces the center of shelf (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, front\nB. , above, behind\nC. , below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002368/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2369, + "data_source": "SPAR-Bench", + "question": "Where is trash can (red bbox) initially from the observers perspective? How does the position of trash can change once the observer moves to the center of table (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, \nB. right, , front\nC. , above, behind\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002369/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2370, + "data_source": "SPAR-Bench", + "question": "How does the relative position of toilet seat cover dispenser (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of bathroom stall (green bbox) and faces toilet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, front\nB. right, above, behind\nC. left, above, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002370/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2371, + "data_source": "SPAR-Bench", + "question": "How does the relative position of pillow (red bbox) to the observer shift when the observer moves to the 3D center of couch (green bbox) and faces the 3D center of radiator (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, \nB. right, above, behind\nC. left, below, \nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002371/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2372, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is towel (red bbox)? How does this relationship shift once the observer moves to trash can\u2019s 3D center (green bbox) and faces toilet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, front\nB. left, , front\nC. right, , front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002372/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2373, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of table (green bbox) and faces office chair (blue bbox), what change occurs in the position of office chair (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, behind\nB. right, below, front\nC. left, above, \nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002373/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2374, + "data_source": "SPAR-Bench", + "question": "Where is pillow (red bbox) in relation to the observer before and after the observer moves to legs\u2019s 3D center (green bbox) and faces couch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, front\nB. right, below, \nC. left, below, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002374/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannet" + }, + { + "question_id": 2375, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of laundry basket (green bbox) and orientation toward paper towel package (blue bbox) affect the spatial relationship between kitchen cabinet (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. , above, front\nB. left, , front\nC. left, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002375/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2376, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of counter (red bbox) to the observer before and after the observer moves to the 3D center of toilet cleaner (green bbox) and faces the center of sink (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. , above, front\nB. right, above, front\nC. , below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002376/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2377, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is split (red bbox) relative to the observer? After the observer moves to the center of toilet brush (green bbox) and faces toilet paper holder (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , front\nB. right, below, behind\nC. left, , behind\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002377/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2378, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between book (red bbox) and the observer change when the observer moves to the center of pillow (green bbox) and faces pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , behind\nB. right, , front\nC. , below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002378/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2379, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of box (green bbox) and faces printer (blue bbox), where is power socket (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, front\nB. , above, front\nC. , above, behind\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002379/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2380, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of office chair (green bbox) and facing desk (blue bbox), where does desk (red bbox) lie in relation to the observer? After moving, where is desk now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , front\nB. , below, front\nC. , below, behind\nD. right, , \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002380/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2381, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship of book (red bbox) relative to the observer\u2019s initial position? How does this relationship change once the observer shifts to the 3D center of book (green bbox) and faces the 3D center of book (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, \nB. left, above, front\nC. , above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002381/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2382, + "data_source": "SPAR-Bench", + "question": "What is the position of window (red bbox) relative to the observer both before and after the observer moves to the 3D center of electrical duct (green bbox) and faces projector screen (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, front\nB. left, below, front\nC. , above, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002382/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2383, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of table (green bbox) and orientation toward kettle (blue bbox) affect the spatial relationship between printer (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, below, behind\nB. left, above, front\nC. left, above, behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002383/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2384, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of split (red bbox) relative to the observer change once the observer moves to the center of nightstand (green bbox) and faces the center of mattress (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , above, front\nB. , below, behind\nC. left, above, \nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002384/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2385, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between split (red bbox) and the observer? If the observer moves to the 3D center of toilet paper holder (green bbox) and faces the 3D center of toothbrush holder (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , below, front\nB. right, below, front\nC. left, above, behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002385/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2386, + "data_source": "SPAR-Bench", + "question": "Where does window (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to blindss 3D center (green bbox) and faces plant pots 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , front\nB. , below, behind\nC. right, below, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002386/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2387, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between mouse (red bbox) and the observer change when the observer moves to the center of computer tower (green bbox) and faces keyboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, front\nB. right, , front\nC. , above, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002387/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2388, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between storage cabinet (red bbox) and the observer changes after the observer moves to the 3D center of storage cabinet (green bbox) and faces box (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, behind\nB. , above, behind\nC. left, above, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002388/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2389, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of whiteboard (green bbox) and faces chair (blue bbox), where is SPLIT (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , front\nB. right, above, \nC. left, , front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002389/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2390, + "data_source": "SPAR-Bench", + "question": "Where is chair (red bbox) in relation to the observer before they move to the 3D center of jug (green bbox) and face chair (blue bbox)? After the movement, where is chair positioned? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , above, front\nB. left, below, front\nC. right, , front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002390/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2391, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between keyboard (red bbox) and the observer changes after the observer moves to the 3D center of mouse (green bbox) and faces chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, below, behind\nB. left, above, behind\nC. right, above, \nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002391/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2392, + "data_source": "SPAR-Bench", + "question": "Before moving to the 3D center of bedside lamp (green bbox) and facing pillow (blue bbox), where does headboard (red bbox) lie in relation to the observer? What about after the movement? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , above, front\nB. right, , front\nC. left, below, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002392/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2393, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of table (green bbox) and faces heater (blue bbox), what change occurs in the position of window frame (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, front\nB. right, above, \nC. right, below, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002393/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2394, + "data_source": "SPAR-Bench", + "question": "If the observer first perceives monitor (red bbox) in a specific direction, how does the relationship change when the observer moves to table\u2019s center (green bbox) and faces monitor\u2019s center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , behind\nB. right, above, front\nC. , below, behind\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002394/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2395, + "data_source": "SPAR-Bench", + "question": "How does the relative position of microwave (red bbox) to the observer change when the observer moves to the center of cabinet (green bbox) and faces the 3D center of poster (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, , behind\nB. , below, front\nC. left, below, front\nD. , above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002395/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2396, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to table lamps 3D center (green bbox) and faces tv remotes 3D center (blue bbox), what is the relationship between the observer and table (red bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , behind\nB. left, below, \nC. left, above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002396/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2397, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of cabinet (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of pen holder (green bbox) and faces table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, behind\nB. right, above, \nC. right, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002397/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2398, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of shelf (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of window (green bbox) and faces office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. , above, front\nB. left, below, front\nC. right, below, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002398/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2399, + "data_source": "SPAR-Bench", + "question": "What happens to the position of rug (red bbox) in relation to the observer after they move to the 3D center of desk (green bbox) and face the center of computer tower (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , above, front\nB. left, , behind\nC. right, below, front\nD. , below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002399/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2400, + "data_source": "SPAR-Bench", + "question": "What is the position of window (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of table (green bbox) and faces water kettle (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, front\nB. left, above, behind\nC. right, below, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002400/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2401, + "data_source": "SPAR-Bench", + "question": "What is the position of towels (red bbox) relative to the observer both before and after the observer moves to the 3D center of hand washing soap (green bbox) and faces toilet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , front\nB. left, below, \nC. right, below, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002401/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2402, + "data_source": "SPAR-Bench", + "question": "Where is toilet paper (red bbox) located relative to the observer initially? After the observer moves to the center of shower curtain (green bbox) and faces light switch (blue bbox), how is the position of toilet paper (red bbox) altered? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, , behind\nB. right, below, behind\nC. right, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002402/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2403, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of nightstand (red bbox) to the observer shift when the observer moves from their original position to bedframe\u2019s 3D center (green bbox) and faces closet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , front\nB. left, above, front\nC. right, above, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002403/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2404, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to chairs 3D center (green bbox) and faces splits 3D center (blue bbox), what is the relationship between the observer and chair (red bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , behind\nB. left, , behind\nC. right, above, behind\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002404/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2405, + "data_source": "SPAR-Bench", + "question": "How does the relative position of toilet brush (red bbox) to the observer shift when the observer moves to the 3D center of trash bin (green bbox) and faces the 3D center of toilet paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , front\nB. right, , behind\nC. right, , front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002405/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2406, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to desks 3D center (green bbox) and faces cabinets 3D center (blue bbox), what is the relationship between the observer and computer tower (red bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, front\nB. , above, front\nC. left, , behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002406/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2407, + "data_source": "SPAR-Bench", + "question": "Before moving to the 3D center of flush button (green bbox) and facing toilet paper dispenser (blue bbox), where does trash bin (red bbox) lie in relation to the observer? What about after the movement? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, behind\nB. , above, front\nC. right, below, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002407/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2408, + "data_source": "SPAR-Bench", + "question": "What is the position of paper (red bbox) relative to the observer both before and after the observer moves to the 3D center of cables (green bbox) and faces window frame (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, front\nB. , above, front\nC. right, below, \nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002408/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2409, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of curtain (green bbox) and facing book (blue bbox), where is book (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, above, behind\nB. , above, front\nC. , below, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002409/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2410, + "data_source": "SPAR-Bench", + "question": "Where does laundry basket (red bbox) stand in relation to the observer\u2019s initial position? After the observer moves to the center of pedestal fan (green bbox) and faces the center of backpack (blue bbox), where does laundry basket lie? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , below, behind\nB. left, below, front\nC. left, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002410/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2411, + "data_source": "SPAR-Bench", + "question": "How does the position of storage cabinet (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of storage cabinet (green bbox) and faces cardboard box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, front\nB. , above, front\nC. left, below, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002411/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2412, + "data_source": "SPAR-Bench", + "question": "If the observer first perceives heater (red bbox) in a specific direction, how does the relationship change when the observer moves to storage cabinet\u2019s center (green bbox) and faces monitor\u2019s center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, front\nB. left, below, front\nC. , above, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002412/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2413, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of bottle crate (red bbox) relative to the observer change once the observer moves to the center of bottle crate (green bbox) and faces the center of trash bin (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, front\nB. left, , behind\nC. right, , behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002413/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2414, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between cabinet (red bbox) and the observer changes after the observer moves to the 3D center of cushion (green bbox) and faces window (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , front\nB. left, below, behind\nC. right, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002414/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2415, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of trash bin (green bbox) and facing toilet paper (blue bbox), where does toilet paper dispenser (red bbox) lie in relation to the observer? After moving, where is toilet paper dispenser now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, front\nB. , above, front\nC. left, , front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002415/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2416, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is washing machine (red bbox) relative to the observer? After the observer moves to the center of towel (green bbox) and faces heater (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, below, front\nB. left, above, front\nC. left, , behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002416/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2417, + "data_source": "SPAR-Bench", + "question": "Where does telephone (red bbox) stand in relation to the observer\u2019s initial position? After the observer moves to the center of chair (green bbox) and faces the center of power socket (blue bbox), where does telephone lie? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, front\nB. right, above, \nC. right, below, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002417/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2418, + "data_source": "SPAR-Bench", + "question": "Where is toilet flush button (red bbox) located from the observer\u2019s point of view initially? After the observer moves to the 3D center of sink (green bbox) and faces toilet (blue bbox), where does toilet flush button lie? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, front\nB. left, , behind\nC. left, above, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002418/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2419, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between chair (red bbox) and the observer? If the observer moves to the 3D center of chair (green bbox) and faces the 3D center of chair (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, \nB. left, , behind\nC. right, below, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002419/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2420, + "data_source": "SPAR-Bench", + "question": "What change occurs in the spatial relationship between the observer and towels (red bbox) when the observer shifts from their original position to the 3D center of split (green bbox) and faces toilet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , below, \nB. left, below, behind\nC. right, , behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002420/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2421, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of cable raceway (green bbox) and faces cable raceway (blue bbox), where is cable raceway (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , below, front\nB. left, above, \nC. , below, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002421/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2422, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of microphone (red bbox) to the observer before and after the observer moves to the 3D center of desk (green bbox) and faces the center of desk (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, below, front\nB. left, below, behind\nC. right, below, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002422/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2423, + "data_source": "SPAR-Bench", + "question": "How does the positional relationship of table (red bbox) to the observer evolve once the observer shifts to the 3D center of pens (green bbox) and faces table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, behind\nB. left, above, behind\nC. , above, front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002423/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2424, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to windows 3D center (green bbox) and faces notices 3D center (blue bbox), what is the relationship between the observer and outlet (red bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , above, front\nB. left, above, front\nC. right, below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002424/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2425, + "data_source": "SPAR-Bench", + "question": "Where is office chair (red bbox) in relation to the observer before they move to the 3D center of pillow (green bbox) and face nightstand (blue bbox)? After the movement, where is office chair positioned? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , behind\nB. , below, front\nC. left, , front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002425/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2426, + "data_source": "SPAR-Bench", + "question": "Where is kitchen cabinet (red bbox) located relative to the observer initially? After the observer moves to the center of water boiler (green bbox) and faces socket (blue bbox), how is the position of kitchen cabinet (red bbox) altered? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. , above, front\nB. , below, front\nC. right, above, \nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002426/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2427, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of bedframe (green bbox) and faces shoes (blue bbox), how does the relative location of nightstand (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, below, behind\nB. left, above, front\nC. right, , behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002427/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2428, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between whiteboard (red bbox) and the observer? If the observer moves to the 3D center of window (green bbox) and faces the 3D center of windowframe (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , behind\nB. , above, behind\nC. right, below, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002428/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2429, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is chair (red bbox) relative to the observer? After the observer moves to the center of softbox light (green bbox) and faces window frame (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , below, front\nB. right, above, behind\nC. right, below, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002429/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2430, + "data_source": "SPAR-Bench", + "question": "Where is window (red bbox) in relation to the observer before and after the observer moves to keyboard\u2019s 3D center (green bbox) and faces computer tower (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, front\nB. , below, behind\nC. right, , behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002430/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2431, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of computer tower (green bbox) and faces SPLIT (blue bbox), how does the relative location of SPLIT (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, behind\nB. , above, \nC. , above, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002431/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2432, + "data_source": "SPAR-Bench", + "question": "Describe where pen (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to trash cans 3D center (green bbox) and faces mouses 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , front\nB. right, below, behind\nC. , above, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002432/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2433, + "data_source": "SPAR-Bench", + "question": "How does the relative position of pen holder (red bbox) to the observer change after the observer shifts to the 3D center of cabinet (green bbox) and faces the 3D center of monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, behind\nB. left, above, front\nC. right, below, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002433/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2434, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of chair (green bbox) and faces blackboard (blue bbox), how does the relative location of chair (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , front\nB. left, below, \nC. right, above, \nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002434/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2435, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is plate (red bbox)? How does this relationship shift once the observer moves to pan\u2019s 3D center (green bbox) and faces cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , behind\nB. right, above, front\nC. right, , front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002435/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2436, + "data_source": "SPAR-Bench", + "question": "If the observer moves to coat racks 3D center (green bbox) and faces boxs 3D center (blue bbox), how does power socket (red bbox) shift in relation to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, behind\nB. left, below, front\nC. left, above, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002436/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2437, + "data_source": "SPAR-Bench", + "question": "Where is reflection (red bbox) located from the observer\u2019s point of view initially? After the observer moves to the 3D center of reflection (green bbox) and faces windowsill (blue bbox), where does reflection lie? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, front\nB. , above, front\nC. right, above, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002437/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2438, + "data_source": "SPAR-Bench", + "question": "If the observer moves to beds 3D center (green bbox) and faces bags 3D center (blue bbox), how does pillow (red bbox) shift in relation to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, front\nB. right, below, front\nC. right, above, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002438/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2439, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is table (red bbox)? After the observer moves to the center of box (green bbox) and faces table (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , below, front\nB. left, below, front\nC. left, below, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002439/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2440, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between table (red bbox) and the observer changes after the observer moves to the 3D center of table (green bbox) and faces windowsill (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , behind\nB. right, , front\nC. right, , behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002440/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2441, + "data_source": "SPAR-Bench", + "question": "What is the position of telephone (red bbox) relative to the observer both before and after the observer moves to the 3D center of pillar (green bbox) and faces light switch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, behind\nB. left, , front\nC. right, , front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002441/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2442, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of coffee maker (red bbox) to the observer shift when the observer moves from their original position to kitchen cabinet\u2019s 3D center (green bbox) and faces container (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , front\nB. right, above, \nC. left, , front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002442/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2443, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between bottle crate (red bbox) and the observer change when the observer moves to the center of bottle crate (green bbox) and faces power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, \nB. left, below, front\nC. left, , front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002443/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2444, + "data_source": "SPAR-Bench", + "question": "Where is picture (red bbox) in relation to the observer before and after the observer moves to monitor\u2019s 3D center (green bbox) and faces plant (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, behind\nB. , below, front\nC. right, , front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002444/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2445, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of beanbag (green bbox) and faces the center of cabinet (blue bbox), how does the positional relationship between box (red bbox) and the observer transform? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, behind\nB. right, above, front\nC. right, below, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002445/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2446, + "data_source": "SPAR-Bench", + "question": "What is the position of cabinet (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of chair (green bbox) and faces marker (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, above, front\nB. right, below, \nC. right, , front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002446/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2447, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of heater (green bbox) and faces table (blue bbox), how does the relative location of split (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , front\nB. right, above, front\nC. right, above, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002447/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2448, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between cabinet (red bbox) and the observer? If the observer moves to the 3D center of stool (green bbox) and faces the 3D center of stool (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , above, behind\nB. right, , behind\nC. left, below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002448/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2449, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of mousepad (green bbox) and faces picture (blue bbox), where is table (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, front\nB. right, above, \nC. left, below, behind\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002449/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2450, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of kitchen drawer (red bbox) relative to the observer change once the observer moves to the center of dishwasher (green bbox) and faces the center of box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, \nB. left, above, behind\nC. , below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002450/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2451, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between coffee machine (red bbox) and the observer after the observer moves to the center of dishwasher (green bbox) and faces shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, \nB. right, below, \nC. right, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002451/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2452, + "data_source": "SPAR-Bench", + "question": "What change occurs in the spatial relationship between the observer and book (red bbox) when the observer shifts from their original position to the 3D center of box (green bbox) and faces monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, \nB. left, above, behind\nC. right, below, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002452/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2453, + "data_source": "SPAR-Bench", + "question": "How does the relative position of book (red bbox) to the observer shift when the observer moves to the 3D center of book (green bbox) and faces the 3D center of bookshelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, \nB. right, above, behind\nC. , above, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002453/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2454, + "data_source": "SPAR-Bench", + "question": "Before moving to the 3D center of power socket (green bbox) and facing office chair (blue bbox), where does trash bin (red bbox) lie in relation to the observer? What about after the movement? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, above, behind\nB. left, below, behind\nC. right, , behind\nD. right, , \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002454/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2455, + "data_source": "SPAR-Bench", + "question": "What happens to the position of chair (red bbox) in relation to the observer after they move to the 3D center of chair (green bbox) and face the center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , front\nB. left, above, front\nC. left, above, \nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002455/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2456, + "data_source": "SPAR-Bench", + "question": "Where is bottle (red bbox) located relative to the observer initially? After the observer moves to the center of trash bin (green bbox) and faces bottle (blue bbox), how is the position of bottle (red bbox) altered? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, , behind\nB. , above, behind\nC. right, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002456/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2457, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is spray bottle (red bbox)? How does this relationship shift once the observer moves to window frame\u2019s 3D center (green bbox) and faces cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , above, front\nB. right, above, behind\nC. left, below, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002457/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2458, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is kitchen cabinet (red bbox)? How does this relationship shift once the observer moves to kitchen counter\u2019s 3D center (green bbox) and faces kitchen cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , above, behind\nB. left, above, \nC. left, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002458/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2459, + "data_source": "SPAR-Bench", + "question": "What is the position of books (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of bag (green bbox) and faces bed (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, behind\nB. left, above, front\nC. right, , front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002459/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2460, + "data_source": "SPAR-Bench", + "question": "How does the positional relationship of window sill (red bbox) to the observer evolve once the observer shifts to the 3D center of blinds (green bbox) and faces monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , front\nB. right, above, front\nC. , below, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002460/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2461, + "data_source": "SPAR-Bench", + "question": "If the observer first perceives windowsill (red bbox) in a specific direction, how does the relationship change when the observer moves to file\u2019s center (green bbox) and faces book\u2019s center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, front\nB. left, below, \nC. left, below, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002461/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2462, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is power socket (red bbox) relative to the observer? After the observer moves to the center of bed (green bbox) and faces cabinet (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , front\nB. left, above, front\nC. right, , behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002462/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2463, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of table (red bbox) to the observer shift when the observer moves from their original position to tube\u2019s 3D center (green bbox) and faces paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, front\nB. left, , front\nC. , below, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002463/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2464, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is standing fan (red bbox)? How does the position of standing fan change once the observer moves to the center of storage cabinet (green bbox) and faces the 3D center of desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, front\nB. left, below, front\nC. right, below, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002464/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2465, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between chair (red bbox) and the observer? If the observer moves to the 3D center of remove (green bbox) and faces the 3D center of light switch (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, behind\nB. , below, front\nC. , above, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002465/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2466, + "data_source": "SPAR-Bench", + "question": "Describe where cardbox (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to boards 3D center (green bbox) and faces machines 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, \nB. left, below, front\nC. left, , behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002466/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2467, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is office chair (red bbox)? After the observer moves to the center of laundry hamper (green bbox) and faces pillow (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, front\nB. right, , front\nC. left, below, behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002467/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2468, + "data_source": "SPAR-Bench", + "question": "Describe where toothbrush holder (red bbox) is located from the observer\u2019s point of view before and after the observer moves to the 3D center of toilet paper holder (green bbox) and faces toilet paper rolls (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , front\nB. , above, behind\nC. left, above, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002468/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2469, + "data_source": "SPAR-Bench", + "question": "What is the position of clothes (red bbox) from the observer\u2019s viewpoint before and after the observer moves to the 3D center of box (green bbox) and faces cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, front\nB. right, , front\nC. , above, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002469/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2470, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between bottle (red bbox) and the observer after the observer moves to the center of board (green bbox) and faces bottle (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , below, front\nB. left, above, \nC. right, above, behind\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002470/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2471, + "data_source": "SPAR-Bench", + "question": "What is the position of monitor (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of light switch (green bbox) and faces whiteboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , front\nB. right, above, front\nC. right, below, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002471/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2472, + "data_source": "SPAR-Bench", + "question": "What is the position of table (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of table (green bbox) and faces water kettle (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, front\nB. right, , behind\nC. right, above, \nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002472/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2473, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of clothes (green bbox) and faces bag (blue bbox), what change occurs in the position of box (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, \nB. left, , front\nC. left, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002473/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2474, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between jug (red bbox) and the observer changes after the observer moves to the 3D center of storage cabinet (green bbox) and faces chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, above, behind\nB. left, , front\nC. right, above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002474/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2475, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is window frame (red bbox)? How does the position of window frame change once the observer moves to the center of SPLIT (green bbox) and faces the 3D center of clothes (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, front\nB. right, , front\nC. , below, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002475/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2476, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of traz (green bbox) and facing switch (blue bbox), where does scissor (red bbox) lie in relation to the observer? After moving, where is scissor now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, front\nB. right, above, behind\nC. , above, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002476/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2477, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is pillow (red bbox)? How does this relationship shift once the observer moves to sofa\u2019s 3D center (green bbox) and faces plant (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, front\nB. , below, behind\nC. left, below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002477/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2478, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of dishwasher (red bbox) to the observer shift when the observer moves from their original position to kitchen cabinet\u2019s 3D center (green bbox) and faces paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, \nB. left, below, front\nC. , above, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002478/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2479, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is electrical duct (red bbox)? How does the position of electrical duct change once the observer moves to the center of desk lamp (green bbox) and faces the 3D center of power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, behind\nB. right, above, \nC. right, above, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002479/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2480, + "data_source": "SPAR-Bench", + "question": "How does the relative position of electrical duct (red bbox) to the observer shift when the observer moves to the 3D center of electrical duct (green bbox) and faces the 3D center of electrical duct (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, behind\nB. right, below, \nC. left, below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002480/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2481, + "data_source": "SPAR-Bench", + "question": "Where does storage ecabinet (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to trash cans 3D center (green bbox) and faces crates 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, front\nB. left, below, behind\nC. left, below, \nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002481/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2482, + "data_source": "SPAR-Bench", + "question": "Where is mouse (red bbox) initially from the observers perspective? How does the position of mouse change once the observer moves to the center of window frame (green bbox) and faces keyboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , behind\nB. right, below, \nC. left, above, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002482/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2483, + "data_source": "SPAR-Bench", + "question": "How does the relative position of board (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of power socket (green bbox) and faces copier (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, \nB. , below, behind\nC. right, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002483/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2484, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is stapler (red bbox)? How does the position of stapler change once the observer moves to the center of power sockets (green bbox) and faces the 3D center of hole puncher (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, front\nB. right, above, front\nC. left, above, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002484/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2485, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to cable raceways 3D center (green bbox) and faces cable raceways 3D center (blue bbox), what is the relationship between the observer and junction box (red bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , behind\nB. , below, front\nC. left, , front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002485/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2486, + "data_source": "SPAR-Bench", + "question": "How does the position of blinds (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of pencil stande (green bbox) and faces table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , below, behind\nB. right, above, behind\nC. left, above, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002486/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2487, + "data_source": "SPAR-Bench", + "question": "Before moving to the 3D center of box (green bbox) and facing table (blue bbox), where does trash bin (red bbox) lie in relation to the observer? What about after the movement? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, front\nB. right, above, behind\nC. left, below, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002487/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2488, + "data_source": "SPAR-Bench", + "question": "How does the relative position of computer tower (red bbox) to the observer change after the observer shifts to the 3D center of computer tower (green bbox) and faces the 3D center of SPLIT (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, \nB. right, above, front\nC. right, , front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002488/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2489, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is joined tables (red bbox)? After the observer moves to the center of chair (green bbox) and faces chair (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, front\nB. , above, front\nC. right, , behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002489/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2490, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of mouse (green bbox) and facing bottle (blue bbox), where is cabinet (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , behind\nB. left, above, front\nC. right, below, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002490/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2491, + "data_source": "SPAR-Bench", + "question": "Where is notebook (red bbox) located relative to the observer initially? After the observer moves to the center of pc (green bbox) and faces postcards (blue bbox), how is the position of notebook (red bbox) altered? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, front\nB. , below, front\nC. left, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002491/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2492, + "data_source": "SPAR-Bench", + "question": "What change occurs in the spatial relationship between the observer and structure (red bbox) when the observer shifts from their original position to the 3D center of stools (green bbox) and faces cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, \nB. left, above, \nC. left, above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002492/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2493, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of table (green bbox) and facing monitor (blue bbox), where is windowsill (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, front\nB. left, below, front\nC. left, , behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002493/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2494, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of jacket (green bbox) and faces the center of decoration (blue bbox), how does the positional relationship between plant pot (red bbox) and the observer transform? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , behind\nB. , below, behind\nC. right, above, \nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002494/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2495, + "data_source": "SPAR-Bench", + "question": "What change occurs in the spatial relationship between the observer and calendar (red bbox) when the observer shifts from their original position to the 3D center of windowsill (green bbox) and faces window (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, front\nB. right, above, \nC. , below, behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002495/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2496, + "data_source": "SPAR-Bench", + "question": "Where is kitchen cabinet (red bbox) in relation to the observer before and after the observer moves to kitchen counter\u2019s 3D center (green bbox) and faces power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , behind\nB. left, below, \nC. , above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002496/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2497, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of kitchen utensil (red bbox) relative to the observer before they move to the center of kitchen utensil (green bbox) and face toaster (blue bbox)? After moving, where does kitchen utensil stand? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, front\nB. right, above, behind\nC. , below, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002497/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2498, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of power socket (red bbox) to the observer before and after the observer moves to the 3D center of power socket (green bbox) and faces the center of chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, behind\nB. , below, front\nC. left, , behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002498/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2499, + "data_source": "SPAR-Bench", + "question": "Before moving to the 3D center of sink (green bbox) and facing split (blue bbox), where does shower gel (red bbox) lie in relation to the observer? What about after the movement? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, \nB. left, , behind\nC. left, above, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002499/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2500, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of box (green bbox) and facing chair (blue bbox), where does computer tower (red bbox) lie in relation to the observer? After moving, where is computer tower now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, front\nB. left, , front\nC. right, , behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002500/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2501, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is board (red bbox)? After the observer moves to the center of cardboard (green bbox) and faces board (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , below, behind\nB. right, below, behind\nC. left, , front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002501/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2502, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of power socket (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of windowsill (green bbox) and faces box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, , behind\nB. right, below, front\nC. , below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002502/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2503, + "data_source": "SPAR-Bench", + "question": "Where is box (red bbox) located from the observer\u2019s point of view initially? After the observer moves to the 3D center of pen (green bbox) and faces desk lamp (blue bbox), where does box lie? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, behind\nB. left, below, front\nC. left, above, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002503/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2504, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between light switch (red bbox) and the observer changes after the observer moves to the 3D center of rods (green bbox) and faces pipe (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, front\nB. right, , behind\nC. , above, behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002504/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2505, + "data_source": "SPAR-Bench", + "question": "What is the position of office chair (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of whiteboard (green bbox) and faces keyboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, , front\nB. left, above, behind\nC. right, above, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002505/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2506, + "data_source": "SPAR-Bench", + "question": "How does the relative position of air conditioner (red bbox) to the observer change when the observer moves to the center of monitor (green bbox) and faces the 3D center of power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , below, behind\nB. right, below, front\nC. left, below, \nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002506/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2507, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of bag (red bbox) to the observer before and after the observer moves to the 3D center of backpack (green bbox) and faces the center of shoes (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, , front\nB. , above, behind\nC. left, above, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002507/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2508, + "data_source": "SPAR-Bench", + "question": "What is the position of telephone (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of telephone (green bbox) and faces monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, \nB. left, , front\nC. right, above, behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002508/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2509, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to chairs 3D center (green bbox) and faces blankets 3D center (blue bbox), what is the relationship between the observer and suitcase (red bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , below, front\nB. right, above, front\nC. right, , front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002509/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2510, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to bathroom cabinets 3D center (green bbox) and faces toilets 3D center (blue bbox), what is the relationship between the observer and bottle (red bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, behind\nB. right, above, \nC. right, above, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002510/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2511, + "data_source": "SPAR-Bench", + "question": "Where does bottle crate (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to microwaves 3D center (green bbox) and faces whiteboards 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, front\nB. right, below, front\nC. left, , behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002511/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2512, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of table (red bbox) relative to the observer change once the observer moves to the center of shelf (green bbox) and faces the center of box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, behind\nB. right, below, front\nC. right, , front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002512/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2513, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of office chair (green bbox) and faces the center of shelf (blue bbox), how does the positional relationship between whiteboard (red bbox) and the observer transform? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, front\nB. left, below, front\nC. , below, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002513/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2514, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between table (red bbox) and the observer change when the observer moves to the center of table (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, behind\nB. , below, behind\nC. left, , front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002514/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2515, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship of table (red bbox) relative to the observer\u2019s initial position? How does this relationship change once the observer shifts to the 3D center of switch (green bbox) and faces the 3D center of copier (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, front\nB. right, above, behind\nC. left, below, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002515/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2516, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of power socket (red bbox) relative to the observer change once the observer moves to the center of box (green bbox) and faces the center of copier (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, behind\nB. , above, behind\nC. left, below, front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002516/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2517, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is power socket (red bbox) relative to the observer? After the observer moves to the center of office chair (green bbox) and faces office chair (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, front\nB. left, above, behind\nC. left, below, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002517/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2518, + "data_source": "SPAR-Bench", + "question": "What happens to the position of structure (red bbox) after the observer moves to the 3D center of sink (green bbox) and faces the center of towels (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, front\nB. , below, front\nC. left, above, behind\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002518/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2519, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of table (green bbox) and facing cabinet (blue bbox), where is keyboard (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , below, behind\nB. right, , \nC. left, below, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002519/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2520, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of monitor (green bbox) and faces window (blue bbox), where is windowframe (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, front\nB. right, above, behind\nC. left, , front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002520/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2521, + "data_source": "SPAR-Bench", + "question": "What is the position of box (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of light switch (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, \nB. left, above, front\nC. left, below, \nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002521/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2522, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of box (red bbox) relative to the observer change once the observer moves to the center of paper (green bbox) and faces the center of box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, behind\nB. left, , front\nC. right, above, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002522/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2523, + "data_source": "SPAR-Bench", + "question": "Describe where toilet paper holder (red bbox) is located from the observer\u2019s point of view before and after the observer moves to the 3D center of split (green bbox) and faces split (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, \nB. , below, \nC. left, above, \nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002523/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2524, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of storage cabinet (green bbox) and facing storage cabinet (blue bbox), where does desk (red bbox) lie in relation to the observer? After moving, where is desk now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , front\nB. left, above, \nC. left, below, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002524/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2525, + "data_source": "SPAR-Bench", + "question": "If the observer first perceives water pipe (red bbox) in a specific direction, how does the relationship change when the observer moves to exhaust fan\u2019s center (green bbox) and faces electrical pipe\u2019s center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, behind\nB. right, above, behind\nC. right, below, front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002525/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2526, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of keyboard (green bbox) and faces the center of cabinet (blue bbox), how does the positional relationship between pen holder (red bbox) and the observer transform? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, \nB. , above, behind\nC. right, below, \nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002526/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2527, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between power socket (red bbox) and the observer change when the observer moves to the center of office chair (green bbox) and faces copier (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, \nB. left, below, front\nC. right, , behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002527/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2528, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of book (green bbox) and faces SPLIT (blue bbox), what change occurs in the position of shelf (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, behind\nB. left, above, front\nC. right, above, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002528/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2529, + "data_source": "SPAR-Bench", + "question": "If the observer moves to chairs 3D center (green bbox) and faces chairs 3D center (blue bbox), how does chair (red bbox) shift in relation to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, , front\nB. left, above, front\nC. left, above, \nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002529/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2530, + "data_source": "SPAR-Bench", + "question": "How does the relative position of office chair (red bbox) to the observer change when the observer moves to the center of cup (green bbox) and faces the 3D center of office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, \nB. , below, behind\nC. right, above, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002530/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2531, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of chair (green bbox) and facing sofa (blue bbox), where does bench (red bbox) lie in relation to the observer? After moving, where is bench now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, front\nB. left, above, front\nC. right, , front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002531/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2532, + "data_source": "SPAR-Bench", + "question": "How does the relative position of bag (red bbox) to the observer shift when the observer moves to the 3D center of tools (green bbox) and faces the 3D center of stool (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, , behind\nB. left, below, \nC. right, above, behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002532/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2533, + "data_source": "SPAR-Bench", + "question": "How does the positional relationship of power socket (red bbox) to the observer evolve once the observer shifts to the 3D center of bed (green bbox) and faces light switch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , above, front\nB. right, above, \nC. right, , front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002533/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2534, + "data_source": "SPAR-Bench", + "question": "What is the position of toilet flush button (red bbox) relative to the observer both before and after the observer moves to the 3D center of toilet brush (green bbox) and faces toothbrush holder (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, behind\nB. , above, front\nC. , above, behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002534/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2535, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is mug (red bbox) relative to the observer? After the observer moves to the center of heater (green bbox) and faces carpet (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , below, behind\nB. right, below, \nC. left, below, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002535/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2536, + "data_source": "SPAR-Bench", + "question": "How does the position of cabinet (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of pedestal fan (green bbox) and faces buket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, , front\nB. left, , front\nC. right, above, behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002536/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2537, + "data_source": "SPAR-Bench", + "question": "What is the position of window (red bbox) relative to the observer both before and after the observer moves to the 3D center of whiteboard (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, \nB. right, below, behind\nC. right, above, front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002537/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2538, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between chair (red bbox) and the observer change when the observer moves to the center of pipe (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , front\nB. left, , behind\nC. right, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002538/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2539, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of paper towel package (green bbox) and faces backpack (blue bbox), where is bag (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, , behind\nB. right, above, \nC. left, below, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002539/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2540, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of bedside lamp (green bbox) and faces bedside table (blue bbox), where is power socket (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, front\nB. right, above, \nC. left, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002540/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2541, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of windowsill (green bbox) and faces monitor (blue bbox), how does the relative location of monitor (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , front\nB. left, above, front\nC. right, above, behind\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002541/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2542, + "data_source": "SPAR-Bench", + "question": "Describe where telephone (red bbox) is located from the observer\u2019s point of view before and after the observer moves to the 3D center of microphone (green bbox) and faces office chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, behind\nB. left, above, \nC. left, above, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002542/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2543, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between light switch (red bbox) and the observer change when the observer moves to the center of switch (green bbox) and faces flat panel display (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, \nB. left, above, front\nC. , above, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002543/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2544, + "data_source": "SPAR-Bench", + "question": "What is the position of office chair (red bbox) relative to the observer both before and after the observer moves to the 3D center of office chair (green bbox) and faces monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, front\nB. left, above, front\nC. left, , behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002544/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2545, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is printer (red bbox)? After the observer moves to the center of table (green bbox) and faces power socket (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , behind\nB. , below, front\nC. left, above, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002545/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2546, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of table (green bbox) and orientation toward books (blue bbox) affect the spatial relationship between bookshelf (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , above, front\nB. right, above, \nC. right, , front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002546/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2547, + "data_source": "SPAR-Bench", + "question": "Describe where pen (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to containers 3D center (green bbox) and faces cables 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, below, behind\nB. , below, \nC. left, , front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002547/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2548, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of monitor (green bbox) and facing mouse (blue bbox), where does ladder (red bbox) lie in relation to the observer? After moving, where is ladder now? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , below, behind\nB. left, below, behind\nC. right, below, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002548/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2549, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is light switch (red bbox)? How does this relationship shift once the observer moves to power socket\u2019s 3D center (green bbox) and faces power sockets (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , below, behind\nB. , above, front\nC. , above, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002549/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2550, + "data_source": "SPAR-Bench", + "question": "Where does trash can (red bbox) stand in relation to the observer\u2019s initial position? After the observer moves to the center of power socket (green bbox) and faces the center of structure (blue bbox), where does trash can lie? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, front\nB. right, above, behind\nC. left, below, \nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002550/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2551, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of whiteboard (green bbox) and faces office chair (blue bbox), where is pedestal fan (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, front\nB. right, below, \nC. left, above, behind\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002551/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2552, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of split (green bbox) and facing reflection (blue bbox), where is kitchen cabinet (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, front\nB. left, , behind\nC. , above, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002552/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2553, + "data_source": "SPAR-Bench", + "question": "What is the position of computer tower (red bbox) from the observer\u2019s viewpoint before and after the observer moves to the 3D center of machine (green bbox) and faces office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, behind\nB. left, above, \nC. left, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002553/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2554, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is windowsill (red bbox) relative to the observer? After the observer moves to the center of window frame (green bbox) and faces window (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, behind\nB. right, below, behind\nC. right, below, \nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002554/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2555, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship of shelf (red bbox) relative to the observer\u2019s initial position? How does this relationship change once the observer shifts to the 3D center of paper towel package (green bbox) and faces the 3D center of laundry basket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, \nB. left, below, behind\nC. , above, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002555/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2556, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of computer tower (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of storage rack (green bbox) and faces computer tower (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , above, front\nB. right, below, behind\nC. right, below, \nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002556/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2557, + "data_source": "SPAR-Bench", + "question": "What is the position of whiteboard (red bbox) relative to the observer both before and after the observer moves to the 3D center of box (green bbox) and faces printer (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , below, front\nB. left, above, behind\nC. , above, behind\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002557/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2558, + "data_source": "SPAR-Bench", + "question": "Where is heater (red bbox) located relative to the observer initially? After the observer moves to the center of chair (green bbox) and faces power socket (blue bbox), how is the position of heater (red bbox) altered? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, front\nB. , above, front\nC. left, below, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002558/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2559, + "data_source": "SPAR-Bench", + "question": "What change occurs in the spatial relationship between the observer and bed (red bbox) when the observer shifts from their original position to the 3D center of backpack (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, front\nB. right, , behind\nC. right, below, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002559/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2560, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between chair (red bbox) and the observer change when the observer moves to the center of chair (green bbox) and faces table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , front\nB. right, above, front\nC. right, above, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002560/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2561, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial positioning of keyboard (red bbox) and chair (yellow bbox) from the observer\u2019s viewpoint? How does it alter after observer moving to cup (green bbox) and orienting towards shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, farther\nB. left, , farther\nC. left, above, farther\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002561/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2562, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, what changes occur in the spatial positioning of bathroom stall door (red bbox) relative to bathroom stall (yellow bbox) when observer moves to bathroom stall (green bbox) and face bathroom stall door (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, \nB. left, below, closer\nC. left, , \nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002562/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2563, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of toilet (red bbox) and toilet paper (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to trash can (green bbox) and orientation towards towel (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, \nB. left, , farther\nC. , below, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002563/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2564, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between toilet (red bbox) and towel (yellow bbox) as observed before and after observer relocating to bathtub (green bbox) and facing sink (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, below, \nB. left, , farther\nC. , above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002564/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2565, + "data_source": "SPAR-Bench", + "question": "What does the observer initially perceive as the spatial relationship between chair (red bbox) and chair (yellow bbox)? How does this perception alter upon observer relocating to table (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, above, closer\nB. right, below, \nC. right, , closer\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002565/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2566, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial positioning of shelf (red bbox) and wood (yellow bbox) from the observer\u2019s viewpoint? How does it alter after observer moving to window (green bbox) and orienting towards desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, farther\nB. right, below, closer\nC. left, below, \nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002566/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2567, + "data_source": "SPAR-Bench", + "question": "Describe the positional dynamics of chair (red bbox) relative to chair (yellow bbox) before and after the observer moves to the center of chair (green bbox) and faces table (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, farther\nB. right, below, \nC. , above, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002567/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2568, + "data_source": "SPAR-Bench", + "question": "How does the spatial interaction between soap dish (red bbox) and sink (yellow bbox) change from the observer\u2019s perspective after observer moving to bathroom vanity (green bbox) and focusing on trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, closer\nB. right, above, farther\nC. , above, closer\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002568/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2569, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial alignment of wood (red bbox) and window (yellow bbox) from the observer\u2019s perspective? How does it change after observer moving to desk (green bbox) and facing shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, \nB. right, , closer\nC. left, below, farther\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002569/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2570, + "data_source": "SPAR-Bench", + "question": "Before moving to pillow (green bbox), what is the observer\u2019s perspective of the relationship between curtain (red bbox) and ottoman (yellow bbox)? How does this perspective shift after observer relocating and orienting towards couch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, , farther\nB. left, , closer\nC. , below, farther\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002570/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2571, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perception of the spatial relationship between chair (red bbox) and shelf (yellow bbox) when observer relocates to chair (green bbox) and face table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , closer\nB. right, , closer\nC. , above, closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002571/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2572, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial positioning of office chair (red bbox) and office chair (yellow bbox) from the observer\u2019s viewpoint? How does it alter after observer moving to table (green bbox) and orienting towards office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, \nB. left, above, closer\nC. left, , closer\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002572/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2573, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between chair (red bbox) and chair (yellow bbox) from the observer\u2019s perspective before and after observer relocating to chair (green bbox) and facing table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , farther\nB. left, , closer\nC. , below, farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002573/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2574, + "data_source": "SPAR-Bench", + "question": "What are the changes in the spatial configuration of bathroom stall (red bbox) relative to toilet paper dispenser (yellow bbox) as seen by the observer upon observer moving to bathroom stall (green bbox) and focusing on toilet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , closer\nB. left, above, closer\nC. left, above, farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002574/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2575, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is recycling bin (red bbox) located relative to trash can (yellow bbox)? How does this spatial relationship change after observer moving to radiator (green bbox) and focusing on office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , farther\nB. left, below, closer\nC. right, above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002575/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2576, + "data_source": "SPAR-Bench", + "question": "How are chair (red bbox) and chair (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to books (green bbox) and orienting towards books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, above, closer\nB. right, above, farther\nC. left, , farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002576/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2577, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between bed (red bbox) and pillow (yellow bbox) from the observer\u2019s view after observer moves to chair (green bbox) and focus on dresser (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , below, closer\nB. left, below, closer\nC. right, , closer\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002577/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2578, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between towel (red bbox) and closet walls (yellow bbox)? How does this perception alter after observer moving to trash can (green bbox) and facing ironing board (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , \nB. right, below, \nC. right, , closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002578/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2579, + "data_source": "SPAR-Bench", + "question": "What are the changes in the spatial configuration of armchair (red bbox) relative to couch (yellow bbox) as seen by the observer upon observer moving to end table (green bbox) and focusing on end table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, , closer\nB. left, above, farther\nC. right, above, closer\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002579/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2580, + "data_source": "SPAR-Bench", + "question": "What does the observer initially perceive as the spatial relationship between shoes (red bbox) and books (yellow bbox)? How does this perception alter upon observer relocating to books (green bbox) and focusing on books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, farther\nB. right, below, farther\nC. left, above, \nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002580/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2581, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between towel (red bbox) and sink (yellow bbox)? What changes when observer moves to bathroom vanity (green bbox) and face toilet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, farther\nB. left, above, closer\nC. left, below, \nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002581/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2582, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between whiteboard (red bbox) and backpack (yellow bbox)? What changes when observer moves to table (green bbox) and face chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, farther\nB. left, below, farther\nC. right, , farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002582/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2583, + "data_source": "SPAR-Bench", + "question": "What are the relative positions of folded chair (red bbox) and chair (yellow bbox) when viewed by the observer? How do these positions change after the observer moves to folded chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, closer\nB. , above, farther\nC. left, , farther\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002583/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2584, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of lamp (red bbox) relative to end table (yellow bbox) change when observer relocates to armchair (green bbox) and face couch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , above, closer\nB. left, below, closer\nC. left, above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002584/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2585, + "data_source": "SPAR-Bench", + "question": "How are the relative positions of trash can (red bbox) and kitchen apron (yellow bbox) perceived from the observer\u2019s initial viewpoint, and what changes after observer moves to pitcher (green bbox) and orient towards picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , farther\nB. , above, farther\nC. right, , closer\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002585/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2586, + "data_source": "SPAR-Bench", + "question": "Before moving to chair (green bbox), what is the observer\u2019s perspective of the relationship between table (red bbox) and chair (yellow bbox)? How does this perspective shift after observer relocating and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, \nB. right, above, farther\nC. right, , closer\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002586/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2587, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to book (green bbox) and orientation towards desk (blue bbox) influence the observer\u2019s view of the spatial relationship between office chair (red bbox) and desk (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , farther\nB. left, above, closer\nC. right, below, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002587/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2588, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between pillow (red bbox) and pillow (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to lamp (green bbox) and orienting towards picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, closer\nB. left, , farther\nC. right, below, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002588/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2589, + "data_source": "SPAR-Bench", + "question": "Describe the relationship between oven (red bbox) and kitchen cabinets (yellow bbox) as initially seen by the observer and how it changes upon observer moving to kitchen cabinet (green bbox) and focusing on kitchen cabinets (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , closer\nB. right, , closer\nC. , above, closer\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002589/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2590, + "data_source": "SPAR-Bench", + "question": "What is the spatial arrangement of coffee table (red bbox) and backpack (yellow bbox) in the observer\u2019s view? How does this arrangement change when the observer relocates to couch (green bbox) and faces books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, farther\nB. left, above, \nC. left, , farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002590/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2591, + "data_source": "SPAR-Bench", + "question": "How does the relationship between chair (red bbox) and chair (yellow bbox) evolve as the observer moves to chair (green bbox) and orients towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, \nB. right, above, closer\nC. left, , farther\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002591/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2592, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between pillow (red bbox) and bed (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to monitor (green bbox) and orienting towards bowl (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , closer\nB. left, above, farther\nC. right, above, \nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002592/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2593, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of chair (red bbox) and tv (yellow bbox) shift when the observer moves to chair (green bbox) and focuses on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , closer\nB. left, below, closer\nC. left, above, closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002593/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2594, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, what is the relationship between hair brush (red bbox) and chair (yellow bbox) before moving? How does it evolve after camera moving to 3d center of table (green bbox) and facing 3d center of hamper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, closer\nB. right, , closer\nC. , above, closer\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002594/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2595, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of stool (red bbox) and mat (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to bathtub (green bbox) and orientation towards sink (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, closer\nB. right, , farther\nC. left, below, farther\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002595/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2596, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to telephone (green bbox) and orientation towards keyboard (blue bbox) affect the spatial perception of monitor (red bbox) and desk (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, farther\nB. left, above, closer\nC. right, above, \nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002596/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2597, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is vacuum cleaner (red bbox) located relative to kitchen counter (yellow bbox)? How does this spatial relationship change after observer moving to refrigerator (green bbox) and focusing on stove (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, closer\nB. right, above, \nC. right, , farther\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002597/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2598, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between couch (red bbox) and end table (yellow bbox) as observed before and after observer relocating to end table (green bbox) and facing armchair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, \nB. right, above, closer\nC. left, , closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002598/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2599, + "data_source": "SPAR-Bench", + "question": "What are the relative positions of shoes (red bbox) and pipe (yellow bbox) when viewed by the observer? How do these positions change after the observer moves to cabinet (green bbox) and faces cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, below, closer\nB. right, above, farther\nC. right, below, farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002599/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2600, + "data_source": "SPAR-Bench", + "question": "What are the changes in the spatial configuration of window (red bbox) relative to counter (yellow bbox) as seen by the observer upon observer moving to sink (green bbox) and focusing on trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , closer\nB. left, below, closer\nC. right, , closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002600/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2601, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial positioning of chair (red bbox) and table (yellow bbox) from the observer\u2019s viewpoint? How does it alter after observer moving to chair (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , below, closer\nB. right, below, \nC. left, , \nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002601/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2602, + "data_source": "SPAR-Bench", + "question": "What is the spatial arrangement of mini fridge (red bbox) and office chair (yellow bbox) in the observer\u2019s view? How does this arrangement change when the observer relocates to office chair (green bbox) and faces office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , closer\nB. , below, farther\nC. right, above, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002602/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2603, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between hat (red bbox) and table (yellow bbox) from the observer\u2019s view after observer moves to bookshelf (green bbox) and focus on jar (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, above, closer\nB. right, , farther\nC. right, below, farther\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002603/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2604, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is table (red bbox) located relative to chair (yellow bbox)? How does this spatial relationship change after observer moving to chair (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , below, closer\nB. right, , \nC. left, above, \nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002604/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2605, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of curtain (red bbox) relative to nightstand (yellow bbox) change when observer relocates to dresser (green bbox) and face messenger bag (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , farther\nB. left, below, \nC. right, above, farther\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002605/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2606, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of plate (red bbox) and backpack (yellow bbox) shift in the observer\u2019s view after observer moving to chair (green bbox) and focusing on dresser (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , closer\nB. right, above, \nC. left, above, \nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002606/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2607, + "data_source": "SPAR-Bench", + "question": "Describe the spatial configuration of chair (red bbox) relative to table (yellow bbox) as initially seen by the observer and how this changes after observer moving to chair (green bbox) and facing trash can (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, farther\nB. right, , farther\nC. left, below, closer\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002607/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2608, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, what is the relationship between trash can (red bbox) and sliding door (yellow bbox) before moving? How does it evolve after camera moving to 3d center of cooler (green bbox) and facing 3d center of box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, \nB. right, above, \nC. left, below, \nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002608/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2609, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between desk (red bbox) and trash can (yellow bbox) from the observer\u2019s perspective before and after observer relocating to recycling bin (green bbox) and facing shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , closer\nB. left, , closer\nC. right, , farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002609/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2610, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between box (red bbox) and box (yellow bbox) from the observer\u2019s view after observer moves to box (green bbox) and focus on box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, farther\nB. right, below, farther\nC. left, above, farther\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002610/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2611, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between fuse box (red bbox) and chair (yellow bbox)? How does this perception alter after observer moving to furnace (green bbox) and facing shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, closer\nB. right, , closer\nC. left, above, closer\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002611/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2612, + "data_source": "SPAR-Bench", + "question": "How are sofa chair (red bbox) and bed (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to nightstand (green bbox) and orienting towards pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, \nB. right, , farther\nC. , below, farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002612/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2613, + "data_source": "SPAR-Bench", + "question": "Initially, what is the observer\u2019s understanding of the relationship between telephone (red bbox) and monitor (yellow bbox)? How does this understanding change after observer moving to file cabinet (green bbox) and orienting towards desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , closer\nB. right, , farther\nC. , below, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002613/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2614, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to pillow (green bbox) and orientation towards pillow (blue bbox) influence the observer\u2019s view of the spatial relationship between bed (red bbox) and suitcase (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , farther\nB. left, , closer\nC. right, above, farther\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002614/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2615, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between projector screen (red bbox) and chair (yellow bbox)? How does this perception alter after observer moving to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, , farther\nB. right, above, closer\nC. right, below, \nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002615/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2616, + "data_source": "SPAR-Bench", + "question": "How are whiteboard (red bbox) and bench (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to box (green bbox) and orienting towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, closer\nB. left, below, closer\nC. right, above, closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002616/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2617, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of vending machine (red bbox) in relation to vending machine (yellow bbox)? How does this orientation shift after the observer moves to laundry hamper (green bbox) and faces trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , closer\nB. right, above, \nC. right, , farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002617/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2618, + "data_source": "SPAR-Bench", + "question": "Describe the positional dynamics of cup (red bbox) relative to soda stream (yellow bbox) before and after the observer moves to the center of kitchen cabinets (green bbox) and faces picture (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, \nB. right, below, farther\nC. right, , farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002618/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2619, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of picture (red bbox) in relation to armchair (yellow bbox)? How does this orientation shift after the observer moves to poster (green bbox) and faces couch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, closer\nB. left, below, farther\nC. right, below, closer\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002619/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2620, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to chair (green bbox) and orientation towards recycling bin (blue bbox) affect the spatial perception of desk (red bbox) and radiator (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, farther\nB. , above, closer\nC. , above, farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002620/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2621, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of bathroom vanity (red bbox) in relation to bottle (yellow bbox)? How does this orientation shift after the observer moves to window (green bbox) and faces shower curtain (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , above, closer\nB. right, below, farther\nC. , below, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002621/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2622, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is bathroom stall (red bbox) located relative to bathroom stall door (yellow bbox)? How does this spatial relationship change after observer moving to toilet (green bbox) and focusing on toilet paper dispenser (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, \nB. left, below, closer\nC. left, , closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002622/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2623, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perception of the spatial positioning of chair (red bbox) and dining table (yellow bbox) change when observer relocates to chair (green bbox) and face chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, farther\nB. , below, farther\nC. left, above, \nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002623/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2624, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of monitor (red bbox) and keyboard (yellow bbox) shift in the observer\u2019s view after observer moving to telephone (green bbox) and focusing on monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , above, closer\nB. left, below, closer\nC. right, above, \nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002624/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2625, + "data_source": "SPAR-Bench", + "question": "Initially, what is the observer\u2019s understanding of the relationship between monitor (red bbox) and monitor (yellow bbox)? How does this understanding change after observer moving to keyboard (green bbox) and orienting towards office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, \nB. right, below, farther\nC. right, above, farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002625/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2626, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between towel (red bbox) and towel (yellow bbox)? How does this perception alter after observer moving to toilet (green bbox) and facing bathtub (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, closer\nB. right, below, farther\nC. , above, closer\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002626/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2627, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of couch (red bbox) relative to couch (yellow bbox) change when observer relocates to book (green bbox) and face pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, \nB. left, above, \nC. right, above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002627/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2628, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perception of the spatial positioning of towel (red bbox) and ledge (yellow bbox) change when observer relocates to trash bin (green bbox) and face light switch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , closer\nB. right, below, farther\nC. , below, farther\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002628/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2629, + "data_source": "SPAR-Bench", + "question": "What are the relative positions of trash can (red bbox) and keyboard (yellow bbox) when viewed by the observer? How do these positions change after the observer moves to monitor (green bbox) and faces office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, farther\nB. right, , farther\nC. , above, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002629/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2630, + "data_source": "SPAR-Bench", + "question": "How are blanket (red bbox) and pillow (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to bed (green bbox) and orienting towards window (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , closer\nB. left, , closer\nC. , below, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002630/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2631, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is books (red bbox) located relative to armchair (yellow bbox)? How does this spatial relationship change after observer moving to books (green bbox) and focusing on books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , above, farther\nB. left, above, farther\nC. right, , closer\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002631/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2632, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between table (red bbox) and chair (yellow bbox)? How does this perception alter after observer moving to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , farther\nB. , above, closer\nC. right, above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002632/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2633, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of chair (red bbox) and chair (yellow bbox) shift in the observer\u2019s view after observer moving to chair (green bbox) and focusing on table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, farther\nB. right, above, farther\nC. left, , closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002633/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2634, + "data_source": "SPAR-Bench", + "question": "What is the spatial arrangement of shower walls (red bbox) and towel (yellow bbox) in the observer\u2019s view? How does this arrangement change when the observer relocates to toilet paper (green bbox) and faces bathtub (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, below, \nB. right, below, closer\nC. right, below, farther\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002634/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2635, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of table (red bbox) in relation to books (yellow bbox)? How does this orientation shift after the observer moves to books (green bbox) and faces books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , closer\nB. right, below, closer\nC. left, above, closer\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002635/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2636, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of laptop (red bbox) in relation to laptop (yellow bbox)? How does this orientation shift after the observer moves to chair (green bbox) and faces cooler (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, farther\nB. left, below, closer\nC. left, , closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002636/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2637, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of book (red bbox) in relation to book (yellow bbox)? How does this orientation shift after the observer moves to book (green bbox) and faces book (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , closer\nB. right, below, farther\nC. right, above, \nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002637/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2638, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of chair (red bbox) and column (yellow bbox) shift when the observer moves to table (green bbox) and focuses on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, farther\nB. right, below, \nC. right, , closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002638/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2639, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between rail (red bbox) and bathtub (yellow bbox) as seen initially and after the observer moves to towel (green bbox) and focuses on shower walls (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, closer\nB. , above, closer\nC. left, above, farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002639/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2640, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between picture (red bbox) and backpack (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of chair (green bbox) and facing table (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , closer\nB. , above, closer\nC. left, , farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002640/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2641, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between chair (red bbox) and desk (yellow bbox) evolve after observer moving to window (green bbox) and orienting towards curtains (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, \nB. left, below, \nC. left, , closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002641/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2642, + "data_source": "SPAR-Bench", + "question": "How does the spatial interaction between monitor (red bbox) and monitor (yellow bbox) change from the observer\u2019s perspective after observer moving to plant (green bbox) and focusing on keyboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , above, farther\nB. right, above, closer\nC. right, , farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002642/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2643, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perception of the spatial relationship between paper towel dispenser (red bbox) and soap dispenser (yellow bbox) when observer relocates to trash can (green bbox) and face paper towel dispenser (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, farther\nB. , above, farther\nC. left, , closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002643/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2644, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of monitor (red bbox) and bed (yellow bbox) shift when the observer moves to table (green bbox) and focuses on tissue box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , closer\nB. left, below, closer\nC. right, above, closer\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002644/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2645, + "data_source": "SPAR-Bench", + "question": "What are the relative positions of end table (red bbox) and armchair (yellow bbox) when viewed by the observer? How do these positions change after the observer moves to coffee table (green bbox) and faces couch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, above, closer\nB. left, , farther\nC. right, below, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002645/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2646, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between window (red bbox) and kitchen cabinet (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to kitchen cabinet (green bbox) and orienting towards kitchen cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , closer\nB. right, above, farther\nC. right, above, closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002646/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2647, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between toaster oven (red bbox) and sink (yellow bbox)? What changes when observer moves to paper towel dispenser (green bbox) and face soap dispenser (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, \nB. left, , farther\nC. left, , closer\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002647/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2648, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of tissue box (red bbox) and bathroom vanity (yellow bbox) shift in the observer\u2019s view after observer moving to mirror (green bbox) and focusing on soap dish (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, closer\nB. right, above, farther\nC. right, below, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002648/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2649, + "data_source": "SPAR-Bench", + "question": "Initially, where does trash can (red bbox) appear in relation to towel (yellow bbox) from the observer\u2019s perspective? How does this perception shift after observer moving to towel (green bbox) and orienting towards towel (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, \nB. left, above, farther\nC. right, below, closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002649/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2650, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between table (red bbox) and chair (yellow bbox) as seen initially and after the observer moves to table (green bbox) and focuses on chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, farther\nB. right, , farther\nC. left, above, \nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002650/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2651, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between paper cutter (red bbox) and cabinet (yellow bbox) from the observer\u2019s perspective before and after observer relocating to trash can (green bbox) and facing cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, closer\nB. right, below, \nC. left, , farther\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002651/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2652, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, how does the relative positioning of pillow (red bbox) and pillow (yellow bbox) evolve after observer moving to pillow (green bbox) and facing bed (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, , closer\nB. left, above, closer\nC. left, below, closer\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002652/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2653, + "data_source": "SPAR-Bench", + "question": "Describe the transformation in the spatial relationship between cabinet (red bbox) and chair (yellow bbox) as the observer moves to chair (green bbox) and focuses on chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, farther\nB. left, , closer\nC. left, above, \nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002653/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2654, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between toilet (red bbox) and toilet paper (yellow bbox)? How does this perception alter after observer moving to shelf (green bbox) and facing trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, , farther\nB. left, above, closer\nC. right, below, \nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002654/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2655, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between table (red bbox) and picture (yellow bbox) as observed before and after observer relocating to couch (green bbox) and facing backpack (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , closer\nB. right, , closer\nC. right, below, closer\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002655/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2656, + "data_source": "SPAR-Bench", + "question": "Before moving to trash can (green bbox), what is the observer\u2019s perspective of the relationship between window (red bbox) and cabinet (yellow bbox)? How does this perspective shift after observer relocating and orienting towards window (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , closer\nB. left, , closer\nC. , above, closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002656/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2657, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between kitchen cabinets (red bbox) and oven (yellow bbox)? How does this perception alter after observer moving to kitchen cabinet (green bbox) and facing kitchen cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , farther\nB. right, above, farther\nC. left, below, closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002657/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2658, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between chair (red bbox) and chair (yellow bbox)? How does this perception alter after observer moving to chair (green bbox) and facing table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , closer\nB. left, above, closer\nC. right, above, farther\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002658/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2659, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of water cooler (red bbox) relative to trash can (yellow bbox) change when observer relocates to shelf (green bbox) and face cart (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , above, farther\nB. right, above, farther\nC. left, , closer\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002659/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2660, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between curtain (red bbox) and radiator (yellow bbox) appear from the observer's perspective? After observer relocating to table (green bbox) and orienting towards chair (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, closer\nB. right, above, closer\nC. left, below, closer\nD. , above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002660/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2661, + "data_source": "SPAR-Bench", + "question": "How are furnace (red bbox) and fuse box (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to chair (green bbox) and orienting towards towel (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , closer\nB. left, above, closer\nC. right, above, closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002661/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2662, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the relationship between monitor (red bbox) and telephone (yellow bbox) transform upon observer moving to file cabinet (green bbox) and facing paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, closer\nB. right, below, \nC. left, above, closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002662/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2663, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between box (red bbox) and box (yellow bbox) as seen initially and after the observer moves to mailbox (green bbox) and focuses on box (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, farther\nB. left, above, closer\nC. right, above, farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002663/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2664, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of towel (red bbox) in relation to towel (yellow bbox)? How does this orientation shift after the observer moves to towel (green bbox) and faces toilet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, farther\nB. , below, \nC. left, above, \nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002664/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2665, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is towel (red bbox) located relative to toilet (yellow bbox)? How does this spatial relationship change after observer moving to towel (green bbox) and focusing on towel (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , farther\nB. right, above, farther\nC. , above, closer\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002665/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2666, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between office chair (red bbox) and office chair (yellow bbox) evolve after observer moving to box (green bbox) and orienting towards office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , \nB. right, below, farther\nC. , below, farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002666/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2667, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between box (red bbox) and kitchen cabinet (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to dishwasher (green bbox) and orienting towards kitchen cabinets (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , below, closer\nB. , below, farther\nC. , above, \nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002667/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2668, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial positioning of sink (red bbox) relative to laundry detergent (yellow bbox) from the observer\u2019s perspective. How does this positioning change after observer moving to washing machine (green bbox) and orienting towards sink (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , above, closer\nB. left, below, closer\nC. right, below, \nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002668/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2669, + "data_source": "SPAR-Bench", + "question": "How are kitchen cabinet (red bbox) and kitchen cabinet (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to window (green bbox) and orienting towards kitchen cabinets (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, farther\nB. right, below, \nC. right, above, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002669/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2670, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between table (red bbox) and picture (yellow bbox) from the observer\u2019s perspective before and after observer relocating to chair (green bbox) and facing plant (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, closer\nB. right, above, farther\nC. left, below, closer\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002670/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2671, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to pillow (green bbox) and orientation towards bed (blue bbox) affect the spatial perception of pillow (red bbox) and shoes (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, closer\nB. left, below, farther\nC. left, above, farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002671/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2672, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perception of the spatial positioning of telephone (red bbox) and keyboard (yellow bbox) change when observer relocates to desk (green bbox) and face monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. , below, closer\nB. right, above, farther\nC. , above, farther\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002672/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2673, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between table (red bbox) and chair (yellow bbox)? What changes when observer moves to table (green bbox) and face starbucks cup (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, closer\nB. , below, farther\nC. right, , closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002673/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2674, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of shower doors (red bbox) and toilet paper holder (yellow bbox) shift when the observer moves to bathtub (green bbox) and focuses on towel (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , closer\nB. , above, closer\nC. left, below, closer\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002674/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2675, + "data_source": "SPAR-Bench", + "question": "Before moving to instrument case (green bbox), what is the observer\u2019s perspective of the relationship between box (red bbox) and dresser (yellow bbox)? How does this perspective shift after observer relocating and orienting towards tv (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , farther\nB. left, above, farther\nC. left, below, closer\nD. right, , \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002675/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2676, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial relationship between pillow (red bbox) and backpack (yellow bbox). How does this change from the observer\u2019s perspective after observer moving to mat (green bbox) and facing pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , closer\nB. left, , closer\nC. right, above, \nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002676/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2677, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between pillow (red bbox) and box (yellow bbox) from the observer\u2019s perspective before and after observer relocating to office chair (green bbox) and facing backpack (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, \nB. right, above, closer\nC. left, above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002677/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2678, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between carton (red bbox) and beer bottles (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of refrigerator (green bbox) and facing water bottle (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, farther\nB. , above, closer\nC. left, below, closer\nD. right, , \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002678/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2679, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, how does the relative positioning of books (red bbox) and books (yellow bbox) evolve after observer moving to books (green bbox) and facing books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, closer\nB. right, , closer\nC. left, above, farther\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002679/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2680, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to trash can (green bbox) and orientation towards towel (blue bbox) affect the spatial perception of soap dish (red bbox) and bottle (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, \nB. left, below, closer\nC. left, above, farther\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002680/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2681, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between backpack (red bbox) and trash can (yellow bbox) appear from the observer's perspective? After observer relocating to trash can (green bbox) and orienting towards jacket (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, closer\nB. right, , farther\nC. right, , closer\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002681/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2682, + "data_source": "SPAR-Bench", + "question": "Initially, where does chair (red bbox) appear in relation to chair (yellow bbox) from the observer\u2019s perspective? How does this perception shift after observer moving to chair (green bbox) and orienting towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , farther\nB. left, above, closer\nC. right, below, closer\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002682/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2683, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between whiteboard (red bbox) and backpack (yellow bbox) as observed before and after observer relocating to chair (green bbox) and facing table (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, closer\nB. right, above, farther\nC. left, below, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002683/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2684, + "data_source": "SPAR-Bench", + "question": "What are the relative positions of couch (red bbox) and picture (yellow bbox) when viewed by the observer? How do these positions change after the observer moves to table (green bbox) and faces picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, \nB. right, below, farther\nC. right, above, closer\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002684/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2685, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of shelf (red bbox) and lamp (yellow bbox) shift in the observer\u2019s view after observer moving to printer (green bbox) and focusing on desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, \nB. right, , closer\nC. left, above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002685/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2686, + "data_source": "SPAR-Bench", + "question": "Describe the spatial configuration of chair (red bbox) relative to shelf (yellow bbox) as initially seen by the observer and how this changes after observer moving to chair (green bbox) and facing paper (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, closer\nB. right, below, farther\nC. left, , closer\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002686/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2687, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial arrangement of picture (red bbox) and table (yellow bbox) differ after observer moving to poster (green bbox) and facing picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, farther\nB. right, above, farther\nC. right, , farther\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002687/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2688, + "data_source": "SPAR-Bench", + "question": "How does the spatial interaction between picture (red bbox) and armchair (yellow bbox) change from the observer\u2019s perspective after observer moving to trash can (green bbox) and focusing on picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, closer\nB. left, below, farther\nC. left, above, farther\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002688/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2689, + "data_source": "SPAR-Bench", + "question": "How does the relationship between toilet paper holder (red bbox) and toilet paper (yellow bbox) evolve as the observer moves to rail (green bbox) and orients towards toilet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , below, \nB. right, , closer\nC. right, above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002689/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2690, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of window (red bbox) and tray (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to paper towel roll (green bbox) and orientation towards toaster oven (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, farther\nB. right, above, \nC. left, below, closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002690/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2691, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to table (green bbox) and orientation towards office chair (blue bbox) influence the observer\u2019s view of the spatial relationship between office chair (red bbox) and office chair (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, , closer\nB. right, above, farther\nC. left, above, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002691/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2692, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial relationship between chair (red bbox) and table (yellow bbox). How does this change from the observer\u2019s perspective after observer moving to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , \nB. left, above, farther\nC. right, above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002692/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2693, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between handrail (red bbox) and jacket (yellow bbox) evolve after observer moving to trash can (green bbox) and orienting towards toilet paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, closer\nB. left, , closer\nC. right, below, farther\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002693/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2694, + "data_source": "SPAR-Bench", + "question": "Describe the spatial configuration of desk (red bbox) relative to monitor (yellow bbox) as initially seen by the observer and how this changes after observer moving to keyboard (green bbox) and facing computer tower (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , closer\nB. left, below, farther\nC. right, above, closer\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002694/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2695, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between fan (red bbox) and cabinet (yellow bbox) as observed before and after observer relocating to printer (green bbox) and facing trash can (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, closer\nB. right, below, \nC. left, , farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002695/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2696, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial positioning of pillow (red bbox) and couch (yellow bbox) from the observer\u2019s viewpoint? How does it alter after observer moving to ottoman (green bbox) and orienting towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, \nB. left, , closer\nC. right, above, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002696/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2697, + "data_source": "SPAR-Bench", + "question": "Before moving to toilet (green bbox), what is the observer\u2019s perspective of the relationship between sink (red bbox) and soap dish (yellow bbox)? How does this perspective shift after observer relocating and orienting towards ledge (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , closer\nB. left, below, \nC. left, below, farther\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002697/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2698, + "data_source": "SPAR-Bench", + "question": "What are the relative positions of chair (red bbox) and chair (yellow bbox) when viewed by the observer? How do these positions change after the observer moves to chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , farther\nB. left, above, \nC. left, , closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002698/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2699, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of keyboard (red bbox) and chair (yellow bbox) shift in the observer\u2019s view after observer moving to telephone (green bbox) and focusing on table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , above, farther\nB. right, , closer\nC. , below, closer\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002699/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2700, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is chair (red bbox) located relative to chair (yellow bbox)? How does this spatial relationship change after observer moving to chair (green bbox) and focusing on cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, \nB. right, , farther\nC. , below, closer\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002700/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2701, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the relationship between laptop (red bbox) and monitor (yellow bbox) transform upon observer moving to office chair (green bbox) and facing keyboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, closer\nB. left, , \nC. right, above, \nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002701/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2702, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to box (green bbox) and orientation towards chair (blue bbox) affect the spatial perception of picture (red bbox) and jacket (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , farther\nB. left, below, closer\nC. , below, farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002702/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2703, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial configuration of toilet (red bbox) and washcloth (yellow bbox) as seen by the observer? How does this configuration change upon observer moving to trash can (green bbox) and facing toilet paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, , closer\nB. left, below, closer\nC. right, , farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002703/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2704, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of bed (red bbox) and pillow (yellow bbox) initially, and how does this relationship change after observer relocating to pillow (green bbox) and facing pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, \nB. right, , farther\nC. left, below, \nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002704/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2705, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between book (red bbox) and book (yellow bbox) as observed before and after observer relocating to book (green bbox) and facing book (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, \nB. left, below, \nC. right, below, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002705/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2706, + "data_source": "SPAR-Bench", + "question": "How are tissue box (red bbox) and laptop (yellow bbox) positioned from the observer\u2019s perspective? After observer relocating to monitor (green bbox) and orienting towards shoes (blue bbox), what changes occur? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, \nB. right, below, farther\nC. right, , farther\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002706/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2707, + "data_source": "SPAR-Bench", + "question": "Initially, what is the observer\u2019s understanding of the relationship between backpack (red bbox) and backpack (yellow bbox)? How does this understanding change after observer moving to chair (green bbox) and orienting towards armchair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, farther\nB. left, below, \nC. left, above, closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002707/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2708, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of cabinet (red bbox) relative to box (yellow bbox) change when observer relocates to trash can (green bbox) and face chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , closer\nB. left, above, closer\nC. right, below, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002708/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2709, + "data_source": "SPAR-Bench", + "question": "What are the changes in the spatial configuration of office chair (red bbox) relative to trash can (yellow bbox) as seen by the observer upon observer moving to shelf (green bbox) and focusing on radiator (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, farther\nB. left, , farther\nC. left, above, farther\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002709/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2710, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, what is the relationship between monitor (red bbox) and paper towel roll (yellow bbox) before moving? How does it evolve after camera moving to 3d center of printer (green bbox) and facing 3d center of table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, farther\nB. left, , closer\nC. left, below, farther\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002710/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2711, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of books (red bbox) and books (yellow bbox) before and after observer relocating to books (green bbox) and facing books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. , above, closer\nB. left, below, \nC. right, below, closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002711/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2712, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between table (red bbox) and chair (yellow bbox) from the observer\u2019s view after observer moves to backpack (green bbox) and focus on whiteboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , farther\nB. right, above, farther\nC. right, , closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002712/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2713, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, what changes occur in the spatial positioning of desk (red bbox) relative to bedframe (yellow bbox) when observer moves to wood beam (green bbox) and face bedframe (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, closer\nB. left, above, farther\nC. left, above, closer\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002713/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2714, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of chair (red bbox) relative to picture (yellow bbox) change when observer relocates to shelf (green bbox) and face chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, farther\nB. left, below, closer\nC. right, , farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002714/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2715, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between desk (red bbox) and office chair (yellow bbox) from the observer\u2019s perspective before and after observer relocating to armchair (green bbox) and facing book (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , below, closer\nB. left, below, closer\nC. left, , closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002715/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2716, + "data_source": "SPAR-Bench", + "question": "What are the relative positions of keyboard (red bbox) and window (yellow bbox) when viewed by the observer? How do these positions change after the observer moves to chair (green bbox) and faces desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, \nB. left, , closer\nC. right, above, farther\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002716/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2717, + "data_source": "SPAR-Bench", + "question": "How are backpack (red bbox) and suitcase (yellow bbox) positioned from the observer\u2019s perspective? After observer relocating to cabinet (green bbox) and orienting towards backpack (blue bbox), what changes occur? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , farther\nB. right, below, \nC. left, , farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002717/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2718, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to picture (green bbox) and orientation towards armchair (blue bbox) influence the observer\u2019s view of the spatial relationship between picture (red bbox) and armchair (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , closer\nB. left, above, farther\nC. left, , closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002718/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2719, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is pillow (red bbox) located relative to nightstand (yellow bbox)? How does this spatial relationship change after observer moving to pillow (green bbox) and focusing on pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, closer\nB. , below, farther\nC. right, above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002719/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2720, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between chair (red bbox) and box (yellow bbox) from the observer\u2019s perspective before and after observer relocating to bookshelf (green bbox) and facing desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, closer\nB. left, , farther\nC. right, above, farther\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002720/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2721, + "data_source": "SPAR-Bench", + "question": "How are chair (red bbox) and chair (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to chair (green bbox) and orienting towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , closer\nB. left, above, \nC. , above, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002721/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2722, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between window (red bbox) and window (yellow bbox) from the observer\u2019s perspective before and after observer relocating to shelf (green bbox) and facing monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , \nB. right, , farther\nC. right, below, closer\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002722/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 2723, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is laundry basket (red bbox) located relative to soap dispenser (yellow bbox)? How does this spatial relationship change after observer moving to jar (green bbox) and focusing on kitchen cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, \nB. right, above, closer\nC. left, below, closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002723/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2724, + "data_source": "SPAR-Bench", + "question": "How does the spatial interaction between window frame (red bbox) and chair (yellow bbox) change from the observer\u2019s perspective after observer moving to chair (green bbox) and focusing on lan (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , farther\nB. left, below, closer\nC. right, below, \nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002724/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2725, + "data_source": "SPAR-Bench", + "question": "What is the spatial arrangement of stove (red bbox) and tap (yellow bbox) in the observer\u2019s view? How does this arrangement change when the observer relocates to bottle (green bbox) and faces kitchen cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , below, closer\nB. left, , closer\nC. , above, closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002725/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2726, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between trash bin (red bbox) and light switch (yellow bbox)? How does this perception alter after observer moving to counter (green bbox) and facing coffee maker (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , farther\nB. , above, closer\nC. , below, closer\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002726/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2727, + "data_source": "SPAR-Bench", + "question": "Before moving to cardboard box (green bbox), what is the observer\u2019s perspective of the relationship between storage cabinet (red bbox) and cardboard box (yellow bbox)? How does this perspective shift after observer relocating and orienting towards cardboard box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , above, farther\nB. right, below, \nC. left, below, farther\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002727/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2728, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of exhaust fan (red bbox) and exhaust fan (yellow bbox) shift when the observer moves to shelf (green bbox) and focuses on electrical duct (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, \nB. left, below, farther\nC. right, below, closer\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002728/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2729, + "data_source": "SPAR-Bench", + "question": "What does the observer initially perceive as the spatial relationship between light switch (red bbox) and sofa (yellow bbox)? How does this perception alter upon observer relocating to bed (green bbox) and focusing on pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , below, closer\nB. right, below, farther\nC. right, above, farther\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002729/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2730, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial positioning of box (red bbox) relative to power socket (yellow bbox) from the observer\u2019s perspective. How does this positioning change after observer moving to table (green bbox) and orienting towards printer (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, closer\nB. , below, farther\nC. left, below, farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002730/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2731, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perception of the spatial positioning of whiteboard (red bbox) and light switch (yellow bbox) change when observer relocates to chair (green bbox) and face joined tables (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , closer\nB. , above, closer\nC. left, below, closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002731/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2732, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perception of the spatial relationship between windowsill (red bbox) and paper towels (yellow bbox) when observer relocates to structure (green bbox) and face reflection (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, below, closer\nB. right, below, farther\nC. right, below, \nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002732/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2733, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between light switch (red bbox) and power socket (yellow bbox) from the observer\u2019s view after observer moves to light switch (green bbox) and focus on whiteboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , closer\nB. left, above, \nC. right, , farther\nD. , above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002733/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2734, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of chair (red bbox) and chair (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to chair (green bbox) and orientation towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , below, farther\nB. right, above, farther\nC. right, below, closer\nD. right, , \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002734/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2735, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial positioning of pen holder (red bbox) relative to photo frame (yellow bbox) from the observer\u2019s perspective. How does this positioning change after observer moving to box (green bbox) and orienting towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, below, \nB. right, above, \nC. left, , \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002735/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2736, + "data_source": "SPAR-Bench", + "question": "What does the observer initially perceive as the spatial relationship between standing lamp (red bbox) and shelf (yellow bbox)? How does this perception alter upon observer relocating to chair (green bbox) and focusing on bottle (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, , closer\nB. right, above, farther\nC. right, below, closer\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002736/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2737, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of jacket (red bbox) in relation to suitcase (yellow bbox)? How does this orientation shift after the observer moves to blanket (green bbox) and faces shoes (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , below, closer\nB. left, above, farther\nC. right, below, farther\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002737/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2738, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of mousepad (red bbox) and table (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to office chair (green bbox) and orientation towards nightstand (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , below, closer\nB. left, above, farther\nC. left, below, closer\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002738/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2739, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the relative position of cabinet (red bbox) to printer (yellow bbox) initially, and how does this position change after observer relocating to objects (green bbox) and facing phone (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , closer\nB. right, below, \nC. left, , closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002739/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2740, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial relationship between clothes (red bbox) and books (yellow bbox). How does this change from the observer\u2019s perspective after observer moving to box (green bbox) and facing clothes (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, \nB. left, below, closer\nC. right, below, \nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002740/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2741, + "data_source": "SPAR-Bench", + "question": "Initially, where does toilet paper (red bbox) appear in relation to trash bin (yellow bbox) from the observer\u2019s perspective? How does this perception shift after observer moving to flush button (green bbox) and orienting towards toilet paper dispenser (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, closer\nB. left, above, \nC. left, , farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002741/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2742, + "data_source": "SPAR-Bench", + "question": "Describe the positional dynamics of bathroom cabinet (red bbox) relative to toothpaste (yellow bbox) before and after the observer moves to the center of towel (green bbox) and faces tap (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, closer\nB. right, , closer\nC. right, below, closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002742/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2743, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between pipe (red bbox) and cardboard box (yellow bbox)? What changes when observer moves to pipe (green bbox) and face cable tray (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, \nB. left, above, closer\nC. left, below, closer\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002743/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2744, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of soap dispenser (red bbox) and wok pan (yellow bbox) initially, and how does this relationship change after observer relocating to electric stove (green bbox) and facing counter (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , below, closer\nB. left, above, closer\nC. left, below, \nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002744/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2745, + "data_source": "SPAR-Bench", + "question": "How are toilet (red bbox) and bottle (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to bathtub (green bbox) and orienting towards toilet paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, , farther\nB. left, below, farther\nC. left, , closer\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002745/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2746, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between water kettle (red bbox) and plate (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to refrigerator (green bbox) and orienting towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, closer\nB. right, below, closer\nC. left, above, \nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002746/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2747, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of table (red bbox) in relation to paper (yellow bbox)? How does this orientation shift after the observer moves to carpet (green bbox) and faces paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, \nB. right, , closer\nC. right, above, \nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002747/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2748, + "data_source": "SPAR-Bench", + "question": "How are the relative positions of towels (red bbox) and hand washing soap (yellow bbox) perceived from the observer\u2019s initial viewpoint, and what changes after observer moves to cabinet (green bbox) and orient towards toilet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, closer\nB. , below, closer\nC. left, above, \nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002748/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2749, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial relationship between monitor (red bbox) and marker (yellow bbox). How does this change from the observer\u2019s perspective after observer moving to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, \nB. right, above, \nC. , below, farther\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002749/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2750, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial alignment of printer (red bbox) and shelf (yellow bbox) from the observer\u2019s perspective? How does it change after observer moving to box (green bbox) and facing power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , above, closer\nB. left, below, closer\nC. , above, farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002750/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2751, + "data_source": "SPAR-Bench", + "question": "Initially, where does headset (red bbox) appear in relation to monitor (yellow bbox) from the observer\u2019s perspective? How does this perception shift after observer moving to table (green bbox) and orienting towards footstool (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. , above, closer\nB. right, below, \nC. right, above, \nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002751/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2752, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between trash can (red bbox) and tray (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of window (green bbox) and facing window frame (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, below, farther\nB. left, above, farther\nC. right, above, farther\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002752/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2753, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of beanbag (red bbox) and box (yellow bbox) initially, and how does this relationship change after observer relocating to bench (green bbox) and facing beanbag (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, below, closer\nB. , below, closer\nC. right, below, farther\nD. right, , \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002753/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2754, + "data_source": "SPAR-Bench", + "question": "Describe the positional dynamics of kettle (red bbox) relative to wooden pallet (yellow bbox) before and after the observer moves to the center of table (green bbox) and faces office chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, farther\nB. right, , farther\nC. left, below, farther\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002754/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2755, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial positioning of chair (red bbox) relative to suitcase (yellow bbox) from the observer\u2019s perspective. How does this positioning change after observer moving to shoes (green bbox) and orienting towards blanket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, closer\nB. left, above, farther\nC. right, , farther\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002755/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2756, + "data_source": "SPAR-Bench", + "question": "What is the spatial arrangement of counter (red bbox) and light switch (yellow bbox) in the observer\u2019s view? How does this arrangement change when the observer relocates to power socket (green bbox) and faces cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, closer\nB. left, below, farther\nC. , below, closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002756/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2757, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, what changes occur in the spatial positioning of bottle (red bbox) relative to pan set (yellow bbox) when observer moves to kettle (green bbox) and face kitchen cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, \nB. , above, closer\nC. left, below, farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002757/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2758, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, what changes occur in the spatial positioning of power socket (red bbox) relative to sink (yellow bbox) when observer moves to chair (green bbox) and face chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , closer\nB. , above, closer\nC. right, below, \nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002758/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2759, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to blanket (green bbox) and orientation towards tv (blue bbox) influence the observer\u2019s view of the spatial relationship between speaker (red bbox) and remote controller (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , closer\nB. right, above, farther\nC. right, above, \nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002759/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2760, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to standing lamp (green bbox) and orientation towards bottle (blue bbox) affect the spatial perception of shelf (red bbox) and office chair (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , closer\nB. left, above, farther\nC. right, above, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002760/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2761, + "data_source": "SPAR-Bench", + "question": "Describe the relationship between razor (red bbox) and faucet (yellow bbox) as initially seen by the observer and how it changes upon observer moving to bathroom counter (green bbox) and focusing on bottle (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, farther\nB. left, , closer\nC. right, below, farther\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002761/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2762, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of portable speaker (red bbox) relative to window (yellow bbox) change when observer relocates to monitor (green bbox) and face blinds (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, below, closer\nB. right, , closer\nC. right, , farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002762/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2763, + "data_source": "SPAR-Bench", + "question": "Describe the spatial configuration of whiteboard (red bbox) relative to table (yellow bbox) as initially seen by the observer and how this changes after observer moving to box (green bbox) and facing table (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , above, \nB. left, , farther\nC. left, above, farther\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002763/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2764, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, how does the relative positioning of knife set (red bbox) and pinboard (yellow bbox) evolve after observer moving to paper (green bbox) and facing fire extinguisher (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, , closer\nB. right, below, farther\nC. right, above, closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002764/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2765, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between office chair (red bbox) and whiteboard (yellow bbox) as seen initially and after the observer moves to table (green bbox) and focuses on office chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, closer\nB. left, below, farther\nC. right, below, \nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002765/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2766, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perception of the spatial positioning of office chair (red bbox) and window (yellow bbox) change when observer relocates to power socket (green bbox) and face office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, , closer\nB. , below, farther\nC. , above, farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002766/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2767, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between paper (red bbox) and lamp (yellow bbox) as observed before and after observer relocating to table mat (green bbox) and facing box (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, farther\nB. , below, farther\nC. right, , \nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002767/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2768, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, what changes occur in the spatial positioning of books (red bbox) relative to keyboard (yellow bbox) when observer moves to monitor (green bbox) and face table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, farther\nB. left, above, \nC. , above, closer\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002768/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2769, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of whiteboard (red bbox) relative to paper (yellow bbox) change when observer relocates to mug (green bbox) and face monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, farther\nB. right, , closer\nC. left, below, farther\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002769/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2770, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of structure (red bbox) and bench (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to beanbag (green bbox) and orientation towards beanbag (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , closer\nB. , above, farther\nC. left, , farther\nD. right, , \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002770/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2771, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between structure (red bbox) and heater (yellow bbox) evolve after observer moving to windowsill (green bbox) and orienting towards kitchen counter (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, closer\nB. right, above, farther\nC. right, below, \nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002771/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2772, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of dishwasher (red bbox) and cup (yellow bbox) shift when the observer moves to cheese (green bbox) and focuses on shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, \nB. right, below, closer\nC. right, below, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002772/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2773, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial positioning of cardboard box (red bbox) and cardboard box (yellow bbox) from the observer\u2019s viewpoint? How does it alter after observer moving to cardboard box (green bbox) and orienting towards cardboard box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , below, farther\nB. , below, closer\nC. left, above, farther\nD. right, , \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002773/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2774, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between bin (red bbox) and table (yellow bbox) as seen initially and after the observer moves to water kettle (green bbox) and focuses on chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , above, closer\nB. right, , farther\nC. right, above, closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002774/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2775, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of shoes (red bbox) in relation to shoes (yellow bbox)? How does this orientation shift after the observer moves to suitcase (green bbox) and faces blanket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , closer\nB. right, , closer\nC. left, above, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002775/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2776, + "data_source": "SPAR-Bench", + "question": "How are paper (red bbox) and kitchen drawer (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to coffee maker (green bbox) and orienting towards container (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , above, closer\nB. left, above, closer\nC. , below, closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002776/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2777, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial positioning of cardboard box (red bbox) relative to cardboard box (yellow bbox) from the observer\u2019s perspective. How does this positioning change after observer moving to cardboard box (green bbox) and orienting towards cardboard box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, closer\nB. right, , farther\nC. , above, closer\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002777/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2778, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial arrangement of projector screen (red bbox) and joined tables (yellow bbox) differ after observer moving to chair (green bbox) and facing power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, closer\nB. right, , closer\nC. right, below, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002778/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2779, + "data_source": "SPAR-Bench", + "question": "How are the relative positions of bathroom cabinet (red bbox) and mirror lamp (yellow bbox) perceived from the observer\u2019s initial viewpoint, and what changes after observer moves to mirror (green bbox) and orient towards bathroom cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, \nB. right, above, farther\nC. right, , farther\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002779/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2780, + "data_source": "SPAR-Bench", + "question": "Initially, where does jug (red bbox) appear in relation to cabinet (yellow bbox) from the observer\u2019s perspective? How does this perception shift after observer moving to monitor (green bbox) and orienting towards monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , closer\nB. , below, farther\nC. right, above, closer\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002780/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2781, + "data_source": "SPAR-Bench", + "question": "How does the relationship between exhaust fan (red bbox) and smoke detector (yellow bbox) evolve as the observer moves to paper (green bbox) and orients towards kitchen cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , closer\nB. right, , farther\nC. left, above, closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002781/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2782, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of exhaust fan (red bbox) and shelf (yellow bbox) shift in the observer\u2019s view after observer moving to table lamp (green bbox) and focusing on whiteboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , above, closer\nB. left, above, closer\nC. right, , farther\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002782/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2783, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between chopping board (red bbox) and fire extinguisher (yellow bbox)? How does this perception alter after observer moving to cup (green bbox) and facing kitchen counter (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, \nB. , below, farther\nC. left, , closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002783/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2784, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between sink counter (red bbox) and water kettle (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of power socket (green bbox) and facing dishwasher (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, \nB. left, , closer\nC. right, below, \nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002784/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2785, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, what is the relationship between kitchen cabinet (red bbox) and structure (yellow bbox) before moving? How does it evolve after camera moving to 3d center of liquid soap (green bbox) and facing 3d center of tap (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, closer\nB. left, above, closer\nC. right, above, farther\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002785/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2786, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between desk (red bbox) and power socket (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of heater (green bbox) and facing telephone (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, below, farther\nB. right, below, closer\nC. , above, closer\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002786/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2787, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between box (red bbox) and box (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to shelf (green bbox) and orienting towards power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , closer\nB. left, , closer\nC. right, above, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002787/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2788, + "data_source": "SPAR-Bench", + "question": "How are the relative positions of pillow (red bbox) and power socket (yellow bbox) perceived from the observer\u2019s initial viewpoint, and what changes after observer moves to shelf (green bbox) and orient towards helmet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, closer\nB. right, , farther\nC. right, below, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002788/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2789, + "data_source": "SPAR-Bench", + "question": "What are the changes in the spatial configuration of chair (red bbox) relative to chair (yellow bbox) as seen by the observer upon observer moving to chair (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , below, closer\nB. left, above, farther\nC. left, , farther\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002789/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2790, + "data_source": "SPAR-Bench", + "question": "How does the spatial interaction between chair (red bbox) and chair (yellow bbox) change from the observer\u2019s perspective after observer moving to chair (green bbox) and focusing on power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , below, farther\nB. right, above, farther\nC. right, , closer\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002790/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2791, + "data_source": "SPAR-Bench", + "question": "What does the observer initially perceive as the spatial relationship between chair (red bbox) and monitor (yellow bbox)? How does this perception alter upon observer relocating to chair (green bbox) and focusing on table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, closer\nB. right, , closer\nC. right, below, closer\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002791/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2792, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between bottle crate (red bbox) and box (yellow bbox)? How does this perception alter after observer moving to power socket (green bbox) and facing whiteboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, \nB. , below, closer\nC. left, above, farther\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002792/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2793, + "data_source": "SPAR-Bench", + "question": "Describe the positional dynamics of blanket (red bbox) relative to plant pot (yellow bbox) before and after the observer moves to the center of power socket (green bbox) and faces picture (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , closer\nB. , above, farther\nC. , above, closer\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002793/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2794, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the relationship between sink (red bbox) and cup (yellow bbox) transform upon observer moving to utensils (green bbox) and facing sink pipe (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, , closer\nB. right, above, closer\nC. left, below, farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002794/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2795, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial alignment of cabinet (red bbox) and shelf (yellow bbox) from the observer\u2019s perspective? How does it change after observer moving to soap bottle (green bbox) and facing light switch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , closer\nB. left, below, farther\nC. right, below, \nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002795/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2796, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of blanket (red bbox) and pillow (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to shelf (green bbox) and orientation towards pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, \nB. , above, farther\nC. right, , \nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002796/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2797, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between heater (red bbox) and window (yellow bbox)? How does this perception alter after observer moving to trash bin (green bbox) and facing table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, closer\nB. left, below, farther\nC. , below, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002797/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2798, + "data_source": "SPAR-Bench", + "question": "Describe the transformation in the spatial relationship between sculpture (red bbox) and monitor (yellow bbox) as the observer moves to book shelf (green bbox) and focuses on eraser (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, \nB. right, below, farther\nC. right, below, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002798/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2799, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of nightstand (red bbox) and bed (yellow bbox) shift when the observer moves to book (green bbox) and focuses on power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , closer\nB. left, above, \nC. , above, closer\nD. , above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002799/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2800, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of power socket (red bbox) and office chair (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to overhead projector (green bbox) and orientation towards cup (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, \nB. right, , \nC. , above, farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002800/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2801, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of whiteboard (red bbox) and box (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to first aid box (green bbox) and orientation towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, \nB. left, above, closer\nC. right, above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002801/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2802, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between table (red bbox) and heater (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to chair (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, closer\nB. right, , farther\nC. left, , farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002802/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2803, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between heater (red bbox) and shoes (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to chair (green bbox) and orienting towards blanket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, closer\nB. right, below, farther\nC. right, , farther\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002803/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2804, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial arrangement of curtain (red bbox) and chair (yellow bbox) differ after observer moving to plant pot (green bbox) and facing plant pot (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, closer\nB. , above, closer\nC. left, below, closer\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002804/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2805, + "data_source": "SPAR-Bench", + "question": "How are box (red bbox) and box (yellow bbox) positioned from the observer\u2019s perspective? After observer relocating to box (green bbox) and orienting towards books (blue bbox), what changes occur? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , above, closer\nB. left, below, closer\nC. , above, \nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002805/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2806, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial positioning of heater (red bbox) and cloth (yellow bbox) from the observer\u2019s viewpoint? How does it alter after observer moving to box (green bbox) and orienting towards towel (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , above, closer\nB. right, below, \nC. left, , closer\nD. right, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002806/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2807, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of table (red bbox) and kitchen counter (yellow bbox) shift in the observer\u2019s view after observer moving to kitchen cabinet (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, farther\nB. left, , closer\nC. , below, closer\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002807/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2808, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between table (red bbox) and table (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of chair (green bbox) and facing table (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, closer\nB. , below, farther\nC. right, below, closer\nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002808/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2809, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, what changes occur in the spatial positioning of keyboard (red bbox) relative to table (yellow bbox) when observer moves to pen holder (green bbox) and face keyboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, closer\nB. right, below, \nC. right, above, closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002809/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2810, + "data_source": "SPAR-Bench", + "question": "Initially, what is the observer\u2019s understanding of the relationship between bottle spray (red bbox) and chair (yellow bbox)? How does this understanding change after observer moving to box (green bbox) and orienting towards box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , farther\nB. left, , closer\nC. right, below, closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002810/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2811, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between cardboard box (red bbox) and cardboard box (yellow bbox) from the observer\u2019s perspective before and after observer relocating to cardboard box (green bbox) and facing cardboard box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, \nB. left, , farther\nC. right, above, \nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002811/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2812, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial configuration of kitchen cabinet (red bbox) and kettle (yellow bbox) as seen by the observer? How does this configuration change upon observer moving to pan set (green bbox) and facing bottle (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , closer\nB. right, , farther\nC. right, below, farther\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002812/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2813, + "data_source": "SPAR-Bench", + "question": "How does the spatial interaction between trash bin (red bbox) and bottle crate (yellow bbox) change from the observer\u2019s perspective after observer moving to copy machine (green bbox) and focusing on table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , closer\nB. left, , \nC. right, above, closer\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002813/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2814, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of shoes (red bbox) relative to chair (yellow bbox) change when observer relocates to suitcase (green bbox) and face blanket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, closer\nB. right, , closer\nC. left, above, \nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002814/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2815, + "data_source": "SPAR-Bench", + "question": "How does the relationship between trash bin (red bbox) and toilet (yellow bbox) evolve as the observer moves to toilet brush (green bbox) and orients towards toilet paper dispenser (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, , farther\nB. , below, farther\nC. , above, closer\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002815/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2816, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between air conditioner (red bbox) and whiteboard (yellow bbox)? How does this perception alter after observer moving to table (green bbox) and facing monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, closer\nB. right, above, farther\nC. left, , \nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002816/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2817, + "data_source": "SPAR-Bench", + "question": "Initially, where does light switch (red bbox) appear in relation to blackboard (yellow bbox) from the observer\u2019s perspective? How does this perception shift after observer moving to chair (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, farther\nB. left, , closer\nC. left, above, closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002817/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2818, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between keyboard (red bbox) and monitor (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of window (green bbox) and facing monitor (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, closer\nB. , below, closer\nC. left, above, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002818/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2819, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between box (red bbox) and box (yellow bbox) from the observer\u2019s view after observer moves to box (green bbox) and focus on monitor light (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, \nB. , below, closer\nC. right, below, \nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002819/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2820, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between chair (red bbox) and chair (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of chair (green bbox) and facing chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , above, closer\nB. right, , closer\nC. right, , farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002820/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2821, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of chair (red bbox) and chair (yellow bbox) shift when the observer moves to chair (green bbox) and focuses on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, closer\nB. left, , farther\nC. left, above, farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002821/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2822, + "data_source": "SPAR-Bench", + "question": "How are the relative positions of bottle (red bbox) and towel (yellow bbox) perceived from the observer\u2019s initial viewpoint, and what changes after observer moves to shampoo bottle (green bbox) and orient towards counter (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, closer\nB. , below, closer\nC. left, below, farther\nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002822/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2823, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between chair (red bbox) and paper (yellow bbox)? How does this perception alter after observer moving to box (green bbox) and facing box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, farther\nB. left, , closer\nC. left, below, farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002823/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2824, + "data_source": "SPAR-Bench", + "question": "Before moving to chair (green bbox), what is the observer\u2019s perspective of the relationship between chair (red bbox) and window frame (yellow bbox)? How does this perspective shift after observer relocating and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , farther\nB. right, , closer\nC. left, below, farther\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002824/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2825, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of washing machine (red bbox) and heater (yellow bbox) before and after observer relocating to bottle (green bbox) and facing towel (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, above, \nB. left, above, farther\nC. right, , \nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002825/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2826, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial arrangement of laundry hamper (red bbox) and cabinet (yellow bbox) differ after observer moving to box (green bbox) and facing clothes (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, closer\nB. left, below, \nC. right, , farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002826/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2827, + "data_source": "SPAR-Bench", + "question": "What are the changes in the spatial configuration of chair (red bbox) relative to chair (yellow bbox) as seen by the observer upon observer moving to split (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, closer\nB. left, , closer\nC. right, below, \nD. right, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002827/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2828, + "data_source": "SPAR-Bench", + "question": "How does the relationship between picture (red bbox) and bag (yellow bbox) evolve as the observer moves to picture (green bbox) and orients towards tote bag (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, farther\nB. left, below, \nC. right, above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002828/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2829, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to monitor (green bbox) and orientation towards window (blue bbox) affect the spatial perception of windowframe (red bbox) and monitor (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, closer\nB. , below, closer\nC. , below, farther\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002829/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2830, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between box (red bbox) and box (yellow bbox)? How does this perception alter after observer moving to box (green bbox) and facing box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , above, closer\nB. left, below, closer\nC. right, above, \nD. , below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002830/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2831, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the relative position of exhaust fan (red bbox) to box (yellow bbox) initially, and how does this position change after observer relocating to shelf (green bbox) and facing box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, \nB. left, below, farther\nC. left, above, farther\nD. left, above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002831/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2832, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between box (red bbox) and box (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to shoes (green bbox) and orienting towards bag (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , closer\nB. right, above, closer\nC. left, above, closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002832/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2833, + "data_source": "SPAR-Bench", + "question": "Describe the transformation in the spatial relationship between pillow (red bbox) and pillow (yellow bbox) as the observer moves to carpet (green bbox) and focuses on blanket (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, farther\nB. left, above, \nC. right, , farther\nD. , below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002833/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2834, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perception of the spatial positioning of box (red bbox) and desk lamp (yellow bbox) change when observer relocates to cabinet (green bbox) and face box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , closer\nB. right, below, farther\nC. , below, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002834/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2835, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between pillow (red bbox) and power socket (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to plant (green bbox) and orienting towards foldable closet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, closer\nB. right, below, \nC. right, below, closer\nD. left, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002835/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2836, + "data_source": "SPAR-Bench", + "question": "Describe the relationship between window (red bbox) and monitor (yellow bbox) as initially seen by the observer and how it changes upon observer moving to monitor (green bbox) and focusing on windowframe (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , farther\nB. right, below, farther\nC. right, below, closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002836/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2837, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between pedestal fan (red bbox) and box (yellow bbox)? How does this perception alter after observer moving to trash bin (green bbox) and facing trash bin (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, closer\nB. , above, farther\nC. right, below, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002837/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2838, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, what changes occur in the spatial positioning of bicycle (red bbox) relative to SPLIT (yellow bbox) when observer moves to bottle (green bbox) and face power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, below, closer\nB. right, below, closer\nC. left, above, \nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002838/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2839, + "data_source": "SPAR-Bench", + "question": "Describe the spatial configuration of sink (red bbox) relative to toothpaste (yellow bbox) as initially seen by the observer and how this changes after observer moving to tap (green bbox) and facing bathroom cabinet (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, \nB. right, , farther\nC. right, below, farther\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002839/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2840, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between bathtub (red bbox) and toilet (yellow bbox) from the observer\u2019s view after observer moves to trash bin (green bbox) and focus on bottle (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , above, closer\nB. right, below, \nC. left, , farther\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002840/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2841, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to plant pot (green bbox) and orientation towards paper (blue bbox) affect the spatial perception of pen holder (red bbox) and paper (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, farther\nB. , below, closer\nC. , below, farther\nD. left, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002841/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2842, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between powerstrip (red bbox) and bookshelf (yellow bbox) from the observer\u2019s perspective before and after observer relocating to suitcase (green bbox) and facing desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, below, \nB. right, , farther\nC. left, , farther\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002842/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2843, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of office chair (red bbox) and cup (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to office chair (green bbox) and orientation towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , farther\nB. , above, closer\nC. left, , closer\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002843/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2844, + "data_source": "SPAR-Bench", + "question": "How are the relative positions of decoration (red bbox) and plant (yellow bbox) perceived from the observer\u2019s initial viewpoint, and what changes after observer moves to pillow (green bbox) and orient towards bed (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, closer\nB. right, below, closer\nC. right, above, \nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002844/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2845, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial alignment of suitcase (red bbox) and desk (yellow bbox) from the observer\u2019s perspective? How does it change after observer moving to book (green bbox) and facing bookshelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, \nB. , below, farther\nC. left, above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002845/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2846, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between light switch (red bbox) and table (yellow bbox) from the observer\u2019s view after observer moves to office chair (green bbox) and focus on cup (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , closer\nB. , above, farther\nC. right, above, farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002846/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2847, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the relationship between heater (red bbox) and outlet (yellow bbox) transform upon observer moving to outlet (green bbox) and facing windowframe (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, closer\nB. , above, closer\nC. right, below, \nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002847/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2848, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between clothes (red bbox) and books (yellow bbox) appear from the observer's perspective? After observer relocating to clothes (green bbox) and orienting towards box (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , above, closer\nB. right, above, farther\nC. , below, closer\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002848/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2849, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perception of the spatial relationship between cutting board (red bbox) and picture (yellow bbox) when observer relocates to plate (green bbox) and face kitchen cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, below, closer\nB. , above, farther\nC. left, , closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002849/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2850, + "data_source": "SPAR-Bench", + "question": "How are the relative positions of storage cabinet (red bbox) and trash can (yellow bbox) perceived from the observer\u2019s initial viewpoint, and what changes after observer moves to tripod (green bbox) and orient towards power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , above, farther\nB. left, above, farther\nC. left, above, closer\nD. right, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002850/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2851, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to table (green bbox) and orientation towards sofa (blue bbox) affect the spatial perception of sofa (red bbox) and cushion (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, farther\nB. right, above, farther\nC. left, above, farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002851/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2852, + "data_source": "SPAR-Bench", + "question": "What does the observer initially perceive as the spatial relationship between cleaning brush (red bbox) and kitchen cabinet (yellow bbox)? How does this perception alter upon observer relocating to blinds (green bbox) and focusing on machine (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, farther\nB. left, below, closer\nC. right, below, \nD. right, above, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002852/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2853, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between paper stapler (red bbox) and shelf (yellow bbox)? How does this perception alter after observer moving to paper stapler (green bbox) and facing paper ram (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , above, farther\nB. right, , farther\nC. , above, closer\nD. left, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002853/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2854, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between trash bin (red bbox) and toilet paper (yellow bbox) appear from the observer's perspective? After observer relocating to bottle (green bbox) and orienting towards bathtub (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, closer\nB. left, below, farther\nC. , above, closer\nD. right, below, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002854/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2855, + "data_source": "SPAR-Bench", + "question": "How are toilet (red bbox) and toilet paper (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to trash bin (green bbox) and orienting towards toilet paper dispenser (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , below, farther\nB. right, below, \nC. right, below, closer\nD. left, , closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002855/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2856, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial arrangement of shoes (red bbox) and box (yellow bbox) differ after observer moving to bag (green bbox) and facing mouse (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, farther\nB. left, , closer\nC. left, below, closer\nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002856/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2857, + "data_source": "SPAR-Bench", + "question": "Before moving to box (green bbox), what is the observer\u2019s perspective of the relationship between box (red bbox) and bag (yellow bbox)? How does this perspective shift after observer relocating and orienting towards clothes (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, \nB. left, below, \nC. right, , farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002857/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2858, + "data_source": "SPAR-Bench", + "question": "Describe the transformation in the spatial relationship between chair (red bbox) and light switch (yellow bbox) as the observer moves to chair (green bbox) and focuses on chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, closer\nB. left, above, \nC. , above, farther\nD. right, below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002858/000.jpg" + ], + "data_type": "single_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2859, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial positioning of painting (red bbox) and windowsill (yellow bbox) from the observer\u2019s viewpoint? How does it alter after observer moving to book (green bbox) and orienting towards file (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , closer\nB. right, above, closer\nC. , above, farther\nD. left, , farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002859/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2860, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial relationship between paper (red bbox) and box (yellow bbox). How does this change from the observer\u2019s perspective after observer moving to box (green bbox) and facing table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , above, closer\nB. left, , farther\nC. , above, farther\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002860/000.jpg" + ], + "data_type": "single_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2861, + "data_source": "SPAR-Bench", + "question": "How are power socket (red bbox) and chair (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to chair (green bbox) and orienting towards interactive whiteboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, \nB. left, , farther\nC. right, below, farther\nD. , above, closer\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002861/000.jpg" + ], + "data_type": "single_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2862, + "data_source": "SPAR-Bench", + "question": "Initially, what is the observer\u2019s understanding of the relationship between plastic case (red bbox) and SPLIT (yellow bbox)? How does this understanding change after observer moving to laboratory equipment (green bbox) and orienting towards pipe (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describes the spatial relationship between two objects after the observer moves. They are in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and farther-closer (farther, closer, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, closer\nB. left, above, closer\nC. right, below, \nD. , below, farther\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_002862/000.jpg" + ], + "data_type": "single_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 2863, + "data_source": "SPAR-Bench", + "question": "Describe the changes in orientation needed to transition from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002863/000.jpg", + "spar_bench/sample_002863/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.6,move_down:0,move_backward:0,rotate_up:15,rotate_left:75", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2864, + "data_source": "SPAR-Bench", + "question": "What spatial adjustments are required for the observer to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002864/000.jpg", + "spar_bench/sample_002864/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_down:0,move_backward:0.2,rotate_up:10,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2865, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s perspective change to capture the view shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002865/000.jpg", + "spar_bench/sample_002865/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0,move_forward:0,rotate_up:5,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2866, + "data_source": "SPAR-Bench", + "question": "If the first image is the starting view, what specific movement is required to match the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002866/000.jpg", + "spar_bench/sample_002866/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_up:0,move_backward:0,rotate_down:0,rotate_right:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2867, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s point of view shift to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002867/000.jpg", + "spar_bench/sample_002867/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_up:0.4,move_forward:1.0,rotate_down:10,rotate_left:120", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2868, + "data_source": "SPAR-Bench", + "question": "What movement or angle adjustment would produce the second image from the perspective of the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002868/000.jpg", + "spar_bench/sample_002868/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_down:0.2,move_forward:2.6,rotate_down:65,rotate_right:125", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2869, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera angle or position change to produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002869/000.jpg", + "spar_bench/sample_002869/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0.2,move_backward:0.2,rotate_up:25,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2870, + "data_source": "SPAR-Bench", + "question": "What perspective changes are necessary to transition between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002870/000.jpg", + "spar_bench/sample_002870/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.2,move_down:0,move_forward:0,rotate_up:5,rotate_left:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2871, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint need to shift to create the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002871/000.jpg", + "spar_bench/sample_002871/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0,move_forward:0,rotate_up:5,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2872, + "data_source": "SPAR-Bench", + "question": "In transitioning from the first image to the second, what movement or zoom is necessary?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002872/000.jpg", + "spar_bench/sample_002872/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0,move_backward:0.4,rotate_up:5,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2873, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s position or orientation change to achieve the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002873/000.jpg", + "spar_bench/sample_002873/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:4.0,move_up:2.0,move_forward:2.4,rotate_up:10,rotate_left:85", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2874, + "data_source": "SPAR-Bench", + "question": "What rotational changes would the camera need to make to move from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002874/000.jpg", + "spar_bench/sample_002874/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0,rotate_up:5,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2875, + "data_source": "SPAR-Bench", + "question": "What perspective adjustments would allow the observer to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002875/000.jpg", + "spar_bench/sample_002875/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_down:0,move_forward:0,rotate_down:5,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2876, + "data_source": "SPAR-Bench", + "question": "Describe the changes in orientation needed to transition from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002876/000.jpg", + "spar_bench/sample_002876/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0,move_forward:0.6,rotate_down:30,rotate_left:70", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2877, + "data_source": "SPAR-Bench", + "question": "What specific camera movements explain the differences between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002877/000.jpg", + "spar_bench/sample_002877/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0,rotate_down:20,rotate_left:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2878, + "data_source": "SPAR-Bench", + "question": "What perspective adjustments would allow the observer to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002878/000.jpg", + "spar_bench/sample_002878/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_down:0.8,move_backward:1.8,rotate_down:0,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2879, + "data_source": "SPAR-Bench", + "question": "What changes in perspective explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002879/000.jpg", + "spar_bench/sample_002879/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.0,move_down:0,move_backward:0,rotate_down:5,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2880, + "data_source": "SPAR-Bench", + "question": "What movement of the camera\u2014forward, backward, or rotational\u2014would produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002880/000.jpg", + "spar_bench/sample_002880/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_up:0.4,move_backward:0,rotate_up:20,rotate_left:120", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2881, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s viewpoint shift to match the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002881/000.jpg", + "spar_bench/sample_002881/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0,move_forward:0,rotate_down:5,rotate_left:85", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2882, + "data_source": "SPAR-Bench", + "question": "If the first image is the reference, what perspective shifts are needed to produce the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002882/000.jpg", + "spar_bench/sample_002882/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:3.0,move_down:0,move_forward:0.2,rotate_down:5,rotate_left:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2883, + "data_source": "SPAR-Bench", + "question": "What changes in position or angle would the camera need to make to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002883/000.jpg", + "spar_bench/sample_002883/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_forward:0,rotate_down:0,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2884, + "data_source": "SPAR-Bench", + "question": "What changes in position or angle would the camera need to make to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002884/000.jpg", + "spar_bench/sample_002884/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0,rotate_down:5,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2885, + "data_source": "SPAR-Bench", + "question": "What changes in angle or distance are necessary to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002885/000.jpg", + "spar_bench/sample_002885/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_up:0.4,move_forward:0.6,rotate_down:0,rotate_right:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2886, + "data_source": "SPAR-Bench", + "question": "What relative movement of the observer explains the shift from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002886/000.jpg", + "spar_bench/sample_002886/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.2,move_down:0.4,move_backward:1.0,rotate_up:5,rotate_right:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2887, + "data_source": "SPAR-Bench", + "question": "If starting from the first image, how would the observer\u2019s camera need to move to recreate the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002887/000.jpg", + "spar_bench/sample_002887/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0,rotate_up:5,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2888, + "data_source": "SPAR-Bench", + "question": "What rotation or movement is needed to change the perspective from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002888/000.jpg", + "spar_bench/sample_002888/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_down:0.2,move_backward:0.4,rotate_up:5,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2889, + "data_source": "SPAR-Bench", + "question": "Describe the shift in perspective needed to move from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002889/000.jpg", + "spar_bench/sample_002889/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0,move_forward:0,rotate_up:10,rotate_left:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2890, + "data_source": "SPAR-Bench", + "question": "What movement of the camera\u2014forward, backward, or rotational\u2014would produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002890/000.jpg", + "spar_bench/sample_002890/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_down:0.4,move_backward:0,rotate_down:10,rotate_left:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2891, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002891/000.jpg", + "spar_bench/sample_002891/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0.4,rotate_up:10,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2892, + "data_source": "SPAR-Bench", + "question": "What perspective adjustments would allow the observer to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002892/000.jpg", + "spar_bench/sample_002892/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0,move_forward:0,rotate_down:5,rotate_left:70", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2893, + "data_source": "SPAR-Bench", + "question": "Describe the shift in perspective needed to move from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002893/000.jpg", + "spar_bench/sample_002893/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_down:0.2,move_backward:0.4,rotate_down:10,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2894, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s position or focus explain the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002894/000.jpg", + "spar_bench/sample_002894/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_up:1.8,move_forward:1.4,rotate_up:35,rotate_left:135", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2895, + "data_source": "SPAR-Bench", + "question": "Describe the shift in perspective needed to move from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002895/000.jpg", + "spar_bench/sample_002895/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_down:0.2,move_backward:0.4,rotate_up:10,rotate_right:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2896, + "data_source": "SPAR-Bench", + "question": "What movement or angle adjustment would produce the second image from the perspective of the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002896/000.jpg", + "spar_bench/sample_002896/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0,move_backward:0,rotate_down:5,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2897, + "data_source": "SPAR-Bench", + "question": "Starting from the first image, how would the observer need to move to achieve the perspective shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002897/000.jpg", + "spar_bench/sample_002897/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0.2,move_forward:0.6,rotate_down:5,rotate_right:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2898, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera angle or position change to produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002898/000.jpg", + "spar_bench/sample_002898/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_down:0,move_forward:0.4,rotate_down:10,rotate_right:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2899, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s point of view shift to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002899/000.jpg", + "spar_bench/sample_002899/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_up:0.6,move_forward:1.2,rotate_down:0,rotate_right:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2900, + "data_source": "SPAR-Bench", + "question": "What movement or angle adjustment would produce the second image from the perspective of the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002900/000.jpg", + "spar_bench/sample_002900/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:1.0,move_forward:3.4,rotate_down:5,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2901, + "data_source": "SPAR-Bench", + "question": "If starting from the first image, how would the observer\u2019s camera need to move to recreate the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002901/000.jpg", + "spar_bench/sample_002901/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:1.4,move_forward:2.0,rotate_down:0,rotate_left:75", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2902, + "data_source": "SPAR-Bench", + "question": "What specific camera adjustments explain the transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002902/000.jpg", + "spar_bench/sample_002902/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_down:0.2,move_backward:0.4,rotate_up:5,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2903, + "data_source": "SPAR-Bench", + "question": "Describe the relative movement required to transition from the perspective of the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002903/000.jpg", + "spar_bench/sample_002903/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:2.2,move_down:0.4,move_backward:0.6,rotate_up:10,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2904, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s position or orientation change to achieve the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002904/000.jpg", + "spar_bench/sample_002904/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_backward:0,rotate_down:10,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2905, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s perspective change to capture the view shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002905/000.jpg", + "spar_bench/sample_002905/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.2,move_up:1.2,move_forward:1.6,rotate_down:0,rotate_right:90", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2906, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002906/000.jpg", + "spar_bench/sample_002906/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:2.0,move_up:1.4,move_forward:2.0,rotate_up:5,rotate_left:115", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2907, + "data_source": "SPAR-Bench", + "question": "What specific camera movements explain the differences between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002907/000.jpg", + "spar_bench/sample_002907/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0,rotate_down:0,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2908, + "data_source": "SPAR-Bench", + "question": "What observer movement would explain the differences in perspective between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002908/000.jpg", + "spar_bench/sample_002908/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_forward:0,rotate_up:10,rotate_right:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2909, + "data_source": "SPAR-Bench", + "question": "Describe the changes in focus or orientation needed to transition from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002909/000.jpg", + "spar_bench/sample_002909/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_backward:0,rotate_down:0,rotate_right:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2910, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s position or focus explain the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002910/000.jpg", + "spar_bench/sample_002910/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_down:0,move_backward:0.2,rotate_down:5,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2911, + "data_source": "SPAR-Bench", + "question": "Starting from the first image, how would the observer need to move to achieve the perspective shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002911/000.jpg", + "spar_bench/sample_002911/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0.2,move_forward:0.2,rotate_down:0,rotate_left:95", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2912, + "data_source": "SPAR-Bench", + "question": "Starting from the first image, how would the observer need to move to achieve the perspective shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002912/000.jpg", + "spar_bench/sample_002912/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.2,move_up:1.2,move_forward:2.0,rotate_up:5,rotate_left:160", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2913, + "data_source": "SPAR-Bench", + "question": "What perspective changes are necessary to transition between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002913/000.jpg", + "spar_bench/sample_002913/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.2,move_up:1.6,move_forward:2.6,rotate_down:0,rotate_right:90", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2914, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint need to shift to create the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002914/000.jpg", + "spar_bench/sample_002914/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.4,move_down:0.2,move_backward:0.6,rotate_down:5,rotate_right:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2915, + "data_source": "SPAR-Bench", + "question": "What observer movement would explain the differences in perspective between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002915/000.jpg", + "spar_bench/sample_002915/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_backward:0.2,rotate_down:0,rotate_left:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2916, + "data_source": "SPAR-Bench", + "question": "Describe the relative movement required to transition from the perspective of the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002916/000.jpg", + "spar_bench/sample_002916/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_down:0,move_backward:0,rotate_down:20,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2917, + "data_source": "SPAR-Bench", + "question": "Describe the movement or rotation required to change the perspective from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002917/000.jpg", + "spar_bench/sample_002917/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0,move_backward:0.2,rotate_up:30,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2918, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera angle or focus explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002918/000.jpg", + "spar_bench/sample_002918/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_down:0.4,move_backward:1.2,rotate_down:0,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2919, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera angle or position change to produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002919/000.jpg", + "spar_bench/sample_002919/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.8,move_up:0.6,move_forward:0.6,rotate_up:15,rotate_right:85", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2920, + "data_source": "SPAR-Bench", + "question": "How must the observer adjust their position to go from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002920/000.jpg", + "spar_bench/sample_002920/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0.2,rotate_up:5,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2921, + "data_source": "SPAR-Bench", + "question": "What spatial adjustments are required for the observer to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002921/000.jpg", + "spar_bench/sample_002921/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.4,move_up:0,move_backward:0,rotate_down:0,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2922, + "data_source": "SPAR-Bench", + "question": "How would the observer\u2019s camera need to tilt or shift to capture the second image from the first viewpoint?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002922/000.jpg", + "spar_bench/sample_002922/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0.8,move_forward:1.6,rotate_up:5,rotate_left:80", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2923, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint change to capture the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002923/000.jpg", + "spar_bench/sample_002923/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0,rotate_down:15,rotate_right:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2924, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera angle or focus explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002924/000.jpg", + "spar_bench/sample_002924/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_up:0.4,move_forward:1.0,rotate_down:10,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2925, + "data_source": "SPAR-Bench", + "question": "What perspective changes are necessary to transition between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002925/000.jpg", + "spar_bench/sample_002925/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_up:1.2,move_forward:2.6,rotate_up:5,rotate_left:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2926, + "data_source": "SPAR-Bench", + "question": "Describe the shift in perspective needed to move from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002926/000.jpg", + "spar_bench/sample_002926/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:2.6,move_up:0.8,move_forward:1.0,rotate_up:10,rotate_left:55", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2927, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s perspective change to capture the view shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002927/000.jpg", + "spar_bench/sample_002927/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_down:0.8,move_backward:1.2,rotate_down:10,rotate_right:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2928, + "data_source": "SPAR-Bench", + "question": "From the first image, what adjustments are necessary to achieve the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002928/000.jpg", + "spar_bench/sample_002928/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_down:0,move_backward:1.2,rotate_down:10,rotate_right:85", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2929, + "data_source": "SPAR-Bench", + "question": "What changes in position or angle would the camera need to make to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002929/000.jpg", + "spar_bench/sample_002929/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0.4,move_backward:0.8,rotate_down:0,rotate_right:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2930, + "data_source": "SPAR-Bench", + "question": "What movement or angle adjustment would produce the second image from the perspective of the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002930/000.jpg", + "spar_bench/sample_002930/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:2.2,move_down:0.4,move_backward:0.4,rotate_up:10,rotate_left:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2931, + "data_source": "SPAR-Bench", + "question": "What observer movement would explain the differences in perspective between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002931/000.jpg", + "spar_bench/sample_002931/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0,rotate_down:15,rotate_left:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2932, + "data_source": "SPAR-Bench", + "question": "What movement or angle adjustment would produce the second image from the perspective of the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002932/000.jpg", + "spar_bench/sample_002932/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0.2,move_forward:0.6,rotate_down:0,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2933, + "data_source": "SPAR-Bench", + "question": "What spatial adjustments are required for the observer to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002933/000.jpg", + "spar_bench/sample_002933/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0.6,move_forward:0.6,rotate_up:20,rotate_left:55", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2934, + "data_source": "SPAR-Bench", + "question": "What adjustments in position or focus would result in the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002934/000.jpg", + "spar_bench/sample_002934/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0,move_forward:0,rotate_down:5,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2935, + "data_source": "SPAR-Bench", + "question": "If starting from the first image, how would the observer\u2019s camera need to move to recreate the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002935/000.jpg", + "spar_bench/sample_002935/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_up:0.8,move_forward:1.0,rotate_up:10,rotate_left:90", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2936, + "data_source": "SPAR-Bench", + "question": "What perspective adjustments would allow the observer to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002936/000.jpg", + "spar_bench/sample_002936/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_forward:0,rotate_up:20,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2937, + "data_source": "SPAR-Bench", + "question": "What changes in perspective or zoom are required to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002937/000.jpg", + "spar_bench/sample_002937/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.2,move_up:1.4,move_forward:2.2,rotate_up:15,rotate_left:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2938, + "data_source": "SPAR-Bench", + "question": "How must the camera\u2019s position or angle change to shift from the first image\u2019s perspective to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002938/000.jpg", + "spar_bench/sample_002938/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_up:1.4,move_forward:2.6,rotate_up:5,rotate_left:95", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2939, + "data_source": "SPAR-Bench", + "question": "How would the observer\u2019s camera need to tilt or shift to capture the second image from the first viewpoint?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002939/000.jpg", + "spar_bench/sample_002939/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_up:1.8,move_forward:3.4,rotate_up:10,rotate_left:100", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2940, + "data_source": "SPAR-Bench", + "question": "What rotation or movement is needed to change the perspective from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002940/000.jpg", + "spar_bench/sample_002940/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_down:0.4,move_backward:1.2,rotate_down:0,rotate_left:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2941, + "data_source": "SPAR-Bench", + "question": "If the first image is the main perspective, how must the observer move to capture the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002941/000.jpg", + "spar_bench/sample_002941/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_up:0.8,move_forward:3.0,rotate_down:10,rotate_right:125", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2942, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s perspective change to capture the view shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002942/000.jpg", + "spar_bench/sample_002942/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.2,move_down:0.2,move_backward:0.4,rotate_down:0,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2943, + "data_source": "SPAR-Bench", + "question": "Describe the adjustments in the observer\u2019s position that would result in the second image from the first perspective.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002943/000.jpg", + "spar_bench/sample_002943/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_down:0,move_forward:0,rotate_down:10,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2944, + "data_source": "SPAR-Bench", + "question": "What specific camera adjustments explain the transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002944/000.jpg", + "spar_bench/sample_002944/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_down:0.4,move_backward:0.4,rotate_down:10,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2945, + "data_source": "SPAR-Bench", + "question": "Describe the shift in perspective needed to move from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002945/000.jpg", + "spar_bench/sample_002945/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_up:0,move_forward:0,rotate_down:15,rotate_right:65", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2946, + "data_source": "SPAR-Bench", + "question": "Describe the shift in perspective needed to move from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002946/000.jpg", + "spar_bench/sample_002946/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0.4,move_forward:1.4,rotate_down:15,rotate_left:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2947, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s point of view shift to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002947/000.jpg", + "spar_bench/sample_002947/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_down:0,move_forward:0.8,rotate_up:5,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2948, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint need to shift to create the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002948/000.jpg", + "spar_bench/sample_002948/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:1.0,move_forward:1.2,rotate_up:15,rotate_right:140", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2949, + "data_source": "SPAR-Bench", + "question": "What movement of the camera\u2014forward, backward, or rotational\u2014would produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002949/000.jpg", + "spar_bench/sample_002949/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0,rotate_up:5,rotate_left:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2950, + "data_source": "SPAR-Bench", + "question": "What rotation or movement is needed to change the perspective from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002950/000.jpg", + "spar_bench/sample_002950/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0.4,move_forward:1.6,rotate_down:5,rotate_left:65", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2951, + "data_source": "SPAR-Bench", + "question": "If starting from the first image, how would the observer\u2019s camera need to move to recreate the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002951/000.jpg", + "spar_bench/sample_002951/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_down:0.2,move_backward:0.4,rotate_up:5,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2952, + "data_source": "SPAR-Bench", + "question": "How must the camera\u2019s position or angle change to shift from the first image\u2019s perspective to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002952/000.jpg", + "spar_bench/sample_002952/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_forward:0,rotate_up:5,rotate_left:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2953, + "data_source": "SPAR-Bench", + "question": "What changes in angle or distance are necessary to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002953/000.jpg", + "spar_bench/sample_002953/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0.2,rotate_down:0,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2954, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint change to capture the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002954/000.jpg", + "spar_bench/sample_002954/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0.2,move_forward:0.6,rotate_down:15,rotate_right:105", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2955, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s position or orientation change to achieve the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002955/000.jpg", + "spar_bench/sample_002955/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.4,move_up:0.4,move_forward:0.6,rotate_down:15,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2956, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s camera orientation change between capturing the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002956/000.jpg", + "spar_bench/sample_002956/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_backward:0,rotate_down:5,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2957, + "data_source": "SPAR-Bench", + "question": "What movement of the camera\u2014forward, backward, or rotational\u2014would produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002957/000.jpg", + "spar_bench/sample_002957/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_up:0.6,move_forward:0.8,rotate_down:5,rotate_right:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2958, + "data_source": "SPAR-Bench", + "question": "What changes in perspective or zoom are required to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002958/000.jpg", + "spar_bench/sample_002958/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.0,move_up:0,move_forward:0,rotate_up:5,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2959, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002959/000.jpg", + "spar_bench/sample_002959/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.6,move_up:0,move_forward:0,rotate_up:10,rotate_left:70", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2960, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera angle or focus explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002960/000.jpg", + "spar_bench/sample_002960/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_up:0,move_forward:0,rotate_down:15,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2961, + "data_source": "SPAR-Bench", + "question": "How must the camera\u2019s position or angle change to shift from the first image\u2019s perspective to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002961/000.jpg", + "spar_bench/sample_002961/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_forward:0,rotate_up:5,rotate_right:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2962, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perspective would produce the second image starting from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002962/000.jpg", + "spar_bench/sample_002962/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_up:0.4,move_forward:0.8,rotate_down:0,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2963, + "data_source": "SPAR-Bench", + "question": "What movement or adjustment of the camera would result in the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002963/000.jpg", + "spar_bench/sample_002963/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_up:0.4,move_forward:0.6,rotate_up:15,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2964, + "data_source": "SPAR-Bench", + "question": "What adjustments in position or focus would result in the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002964/000.jpg", + "spar_bench/sample_002964/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.6,move_up:1.6,move_forward:2.8,rotate_down:0,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2965, + "data_source": "SPAR-Bench", + "question": "What spatial adjustments are required for the observer to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002965/000.jpg", + "spar_bench/sample_002965/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_up:0.6,move_forward:0.4,rotate_up:35,rotate_right:75", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2966, + "data_source": "SPAR-Bench", + "question": "What rotational changes would the camera need to make to move from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002966/000.jpg", + "spar_bench/sample_002966/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0.4,move_forward:0.6,rotate_down:10,rotate_left:160", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2967, + "data_source": "SPAR-Bench", + "question": "What movement of the camera\u2014forward, backward, or rotational\u2014would produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002967/000.jpg", + "spar_bench/sample_002967/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0,rotate_down:5,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2968, + "data_source": "SPAR-Bench", + "question": "From the first image, what adjustments are necessary to achieve the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002968/000.jpg", + "spar_bench/sample_002968/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_up:0.8,move_forward:2.4,rotate_up:5,rotate_left:120", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2969, + "data_source": "SPAR-Bench", + "question": "What rotational changes would the camera need to make to move from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002969/000.jpg", + "spar_bench/sample_002969/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_up:0.4,move_forward:1.4,rotate_down:5,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2970, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera move or rotate to recreate the second image from the first perspective?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002970/000.jpg", + "spar_bench/sample_002970/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0.4,move_forward:1.0,rotate_down:10,rotate_right:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2971, + "data_source": "SPAR-Bench", + "question": "If the first image is the main perspective, how must the observer move to capture the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002971/000.jpg", + "spar_bench/sample_002971/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_down:0.2,move_backward:0,rotate_down:25,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2972, + "data_source": "SPAR-Bench", + "question": "What changes in angle or distance are necessary to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002972/000.jpg", + "spar_bench/sample_002972/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_backward:0,rotate_down:0,rotate_left:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2973, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera angle or focus explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002973/000.jpg", + "spar_bench/sample_002973/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_up:2.6,move_forward:4.6,rotate_up:10,rotate_left:160", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2974, + "data_source": "SPAR-Bench", + "question": "In transitioning from the first image to the second, what movement or zoom is necessary?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002974/000.jpg", + "spar_bench/sample_002974/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_down:0.2,move_backward:0.4,rotate_up:5,rotate_left:70", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2975, + "data_source": "SPAR-Bench", + "question": "What movement or adjustment of the camera would result in the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002975/000.jpg", + "spar_bench/sample_002975/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_up:0.4,move_forward:0,rotate_up:20,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2976, + "data_source": "SPAR-Bench", + "question": "What changes in angle or distance are necessary to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002976/000.jpg", + "spar_bench/sample_002976/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_down:0,move_backward:0,rotate_down:5,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2977, + "data_source": "SPAR-Bench", + "question": "What perspective adjustments would allow the observer to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002977/000.jpg", + "spar_bench/sample_002977/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0,move_forward:0.4,rotate_up:5,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2978, + "data_source": "SPAR-Bench", + "question": "What perspective adjustments would allow the observer to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002978/000.jpg", + "spar_bench/sample_002978/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_down:1.2,move_backward:3.2,rotate_up:10,rotate_left:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2979, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint need to shift to create the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002979/000.jpg", + "spar_bench/sample_002979/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_up:0.4,move_forward:0.8,rotate_down:0,rotate_right:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2980, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002980/000.jpg", + "spar_bench/sample_002980/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0.4,move_forward:0.2,rotate_up:10,rotate_left:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2981, + "data_source": "SPAR-Bench", + "question": "Describe the movement or rotation required to change the perspective from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002981/000.jpg", + "spar_bench/sample_002981/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_up:0,move_backward:0.2,rotate_down:0,rotate_left:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2982, + "data_source": "SPAR-Bench", + "question": "What movement of the camera\u2014forward, backward, or rotational\u2014would produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002982/000.jpg", + "spar_bench/sample_002982/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0,rotate_down:0,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2983, + "data_source": "SPAR-Bench", + "question": "How must the observer adjust their position to go from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002983/000.jpg", + "spar_bench/sample_002983/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_down:0,move_forward:0.6,rotate_up:10,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2984, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s position or orientation change to achieve the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002984/000.jpg", + "spar_bench/sample_002984/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0.2,rotate_up:10,rotate_left:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2985, + "data_source": "SPAR-Bench", + "question": "How would the observer\u2019s camera need to tilt or shift to capture the second image from the first viewpoint?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002985/000.jpg", + "spar_bench/sample_002985/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0,move_backward:0.2,rotate_up:35,rotate_left:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2986, + "data_source": "SPAR-Bench", + "question": "What adjustments in position or focus would result in the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002986/000.jpg", + "spar_bench/sample_002986/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_forward:0,rotate_down:10,rotate_left:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2987, + "data_source": "SPAR-Bench", + "question": "What rotation or movement is needed to change the perspective from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002987/000.jpg", + "spar_bench/sample_002987/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_down:0,move_backward:0.2,rotate_up:15,rotate_left:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2988, + "data_source": "SPAR-Bench", + "question": "What perspective changes are necessary to transition between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002988/000.jpg", + "spar_bench/sample_002988/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0,move_backward:0,rotate_down:5,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2989, + "data_source": "SPAR-Bench", + "question": "What rotational changes would the camera need to make to move from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002989/000.jpg", + "spar_bench/sample_002989/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0,move_backward:0,rotate_up:5,rotate_right:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2990, + "data_source": "SPAR-Bench", + "question": "What adjustments in position or focus would result in the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002990/000.jpg", + "spar_bench/sample_002990/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_forward:0.6,rotate_down:10,rotate_left:70", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2991, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perspective would produce the second image starting from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002991/000.jpg", + "spar_bench/sample_002991/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0,move_backward:0.4,rotate_down:0,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2992, + "data_source": "SPAR-Bench", + "question": "What observer movement would explain the differences in perspective between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002992/000.jpg", + "spar_bench/sample_002992/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_up:0.4,move_forward:0.6,rotate_down:0,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2993, + "data_source": "SPAR-Bench", + "question": "If starting from the first image, how would the observer\u2019s camera need to move to recreate the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002993/000.jpg", + "spar_bench/sample_002993/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_forward:0.6,rotate_down:0,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2994, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s point of view shift to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002994/000.jpg", + "spar_bench/sample_002994/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.2,move_down:0,move_backward:0,rotate_down:5,rotate_right:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2995, + "data_source": "SPAR-Bench", + "question": "What observer movement would explain the differences in perspective between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002995/000.jpg", + "spar_bench/sample_002995/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.2,move_up:1.0,move_forward:2.0,rotate_down:5,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2996, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s point of view shift to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002996/000.jpg", + "spar_bench/sample_002996/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0.4,move_forward:0.8,rotate_down:0,rotate_left:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2997, + "data_source": "SPAR-Bench", + "question": "Describe how the observer\u2019s position or orientation must change to go from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002997/000.jpg", + "spar_bench/sample_002997/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0.4,move_backward:0.6,rotate_up:5,rotate_right:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2998, + "data_source": "SPAR-Bench", + "question": "Describe the movement or rotation required to change the perspective from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002998/000.jpg", + "spar_bench/sample_002998/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_down:0.4,move_backward:1.0,rotate_down:20,rotate_right:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 2999, + "data_source": "SPAR-Bench", + "question": "What changes in angle or distance are necessary to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_002999/000.jpg", + "spar_bench/sample_002999/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_forward:0,rotate_down:0,rotate_right:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3000, + "data_source": "SPAR-Bench", + "question": "Describe the adjustments in the observer\u2019s position that would result in the second image from the first perspective.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003000/000.jpg", + "spar_bench/sample_003000/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_forward:0,rotate_down:5,rotate_right:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3001, + "data_source": "SPAR-Bench", + "question": "What perspective changes are necessary to transition between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003001/000.jpg", + "spar_bench/sample_003001/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0,move_backward:0,rotate_down:20,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3002, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s perspective change to capture the view shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003002/000.jpg", + "spar_bench/sample_003002/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0.8,move_forward:1.6,rotate_up:5,rotate_left:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3003, + "data_source": "SPAR-Bench", + "question": "What changes in perspective explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003003/000.jpg", + "spar_bench/sample_003003/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_down:0,move_backward:0,rotate_up:5,rotate_left:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3004, + "data_source": "SPAR-Bench", + "question": "What perspective changes are necessary to transition between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003004/000.jpg", + "spar_bench/sample_003004/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_down:0,move_backward:0.6,rotate_up:15,rotate_left:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3005, + "data_source": "SPAR-Bench", + "question": "In transitioning from the first image to the second, what movement or zoom is necessary?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003005/000.jpg", + "spar_bench/sample_003005/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0.2,move_forward:0,rotate_up:25,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3006, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera angle or position change to produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003006/000.jpg", + "spar_bench/sample_003006/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_backward:0,rotate_down:0,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3007, + "data_source": "SPAR-Bench", + "question": "What specific camera movements explain the differences between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003007/000.jpg", + "spar_bench/sample_003007/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_backward:0,rotate_down:10,rotate_right:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3008, + "data_source": "SPAR-Bench", + "question": "If the first image is the main perspective, how must the observer move to capture the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003008/000.jpg", + "spar_bench/sample_003008/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_down:0.2,move_backward:0.6,rotate_down:5,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3009, + "data_source": "SPAR-Bench", + "question": "What specific camera adjustments explain the transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003009/000.jpg", + "spar_bench/sample_003009/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_up:0,move_backward:0,rotate_up:10,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3010, + "data_source": "SPAR-Bench", + "question": "What rotational changes would the camera need to make to move from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003010/000.jpg", + "spar_bench/sample_003010/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_up:0,move_forward:0.4,rotate_down:5,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3011, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s viewpoint shift to match the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003011/000.jpg", + "spar_bench/sample_003011/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0.4,move_forward:1.0,rotate_up:5,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3012, + "data_source": "SPAR-Bench", + "question": "What adjustments in position or focus would result in the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003012/000.jpg", + "spar_bench/sample_003012/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.2,move_up:1.4,move_forward:2.0,rotate_down:10,rotate_right:70", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3013, + "data_source": "SPAR-Bench", + "question": "How would the observer\u2019s camera need to tilt or shift to capture the second image from the first viewpoint?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003013/000.jpg", + "spar_bench/sample_003013/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.0,move_up:0,move_backward:0,rotate_down:5,rotate_left:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3014, + "data_source": "SPAR-Bench", + "question": "What spatial adjustments are required for the observer to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003014/000.jpg", + "spar_bench/sample_003014/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0.8,move_forward:1.4,rotate_down:5,rotate_left:125", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3015, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003015/000.jpg", + "spar_bench/sample_003015/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0.2,move_forward:0.4,rotate_up:5,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3016, + "data_source": "SPAR-Bench", + "question": "What changes in perspective or zoom are required to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003016/000.jpg", + "spar_bench/sample_003016/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_down:0,move_forward:1.4,rotate_down:20,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3017, + "data_source": "SPAR-Bench", + "question": "Describe the movement or rotation required to change the perspective from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003017/000.jpg", + "spar_bench/sample_003017/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_forward:0,rotate_down:0,rotate_left:55", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3018, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003018/000.jpg", + "spar_bench/sample_003018/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_down:0,move_backward:0.4,rotate_down:0,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3019, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s position or orientation change to achieve the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003019/000.jpg", + "spar_bench/sample_003019/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.2,move_up:1.2,move_forward:1.6,rotate_down:10,rotate_left:150", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3020, + "data_source": "SPAR-Bench", + "question": "How must the observer adjust their position to go from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003020/000.jpg", + "spar_bench/sample_003020/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_down:0,move_backward:0,rotate_up:10,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3021, + "data_source": "SPAR-Bench", + "question": "What observer movement would explain the differences in perspective between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003021/000.jpg", + "spar_bench/sample_003021/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_forward:0,rotate_down:5,rotate_left:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3022, + "data_source": "SPAR-Bench", + "question": "Describe the changes in orientation needed to transition from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003022/000.jpg", + "spar_bench/sample_003022/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0,move_forward:0,rotate_up:5,rotate_right:55", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3023, + "data_source": "SPAR-Bench", + "question": "How would the observer\u2019s camera need to tilt or shift to capture the second image from the first viewpoint?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003023/000.jpg", + "spar_bench/sample_003023/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_down:0,move_forward:0.4,rotate_down:10,rotate_right:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3024, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s viewpoint shift to match the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003024/000.jpg", + "spar_bench/sample_003024/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.0,move_down:0.2,move_backward:0.4,rotate_down:5,rotate_right:65", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3025, + "data_source": "SPAR-Bench", + "question": "What movement or angle adjustment would produce the second image from the perspective of the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003025/000.jpg", + "spar_bench/sample_003025/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0,move_backward:0,rotate_down:5,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3026, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera angle or position change to produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003026/000.jpg", + "spar_bench/sample_003026/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.0,move_up:0.6,move_forward:1.4,rotate_down:30,rotate_left:85", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3027, + "data_source": "SPAR-Bench", + "question": "If the first image is the main perspective, how must the observer move to capture the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003027/000.jpg", + "spar_bench/sample_003027/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0.4,rotate_down:10,rotate_right:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3028, + "data_source": "SPAR-Bench", + "question": "Describe the adjustments in the observer\u2019s position that would result in the second image from the first perspective.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003028/000.jpg", + "spar_bench/sample_003028/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0.2,rotate_up:5,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3029, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003029/000.jpg", + "spar_bench/sample_003029/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_down:0,move_backward:0,rotate_down:5,rotate_left:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3030, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s point of view shift to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003030/000.jpg", + "spar_bench/sample_003030/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0.4,move_backward:0.6,rotate_up:5,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3031, + "data_source": "SPAR-Bench", + "question": "What specific camera adjustments explain the transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003031/000.jpg", + "spar_bench/sample_003031/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_up:0,move_forward:0,rotate_down:10,rotate_left:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3032, + "data_source": "SPAR-Bench", + "question": "What changes in perspective or zoom are required to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003032/000.jpg", + "spar_bench/sample_003032/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0,rotate_down:15,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3033, + "data_source": "SPAR-Bench", + "question": "What perspective adjustments would allow the observer to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003033/000.jpg", + "spar_bench/sample_003033/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0.2,move_backward:0,rotate_up:30,rotate_right:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3034, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s position or orientation change to achieve the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003034/000.jpg", + "spar_bench/sample_003034/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_down:0,move_forward:0,rotate_down:5,rotate_left:80", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3035, + "data_source": "SPAR-Bench", + "question": "What perspective adjustments would allow the observer to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003035/000.jpg", + "spar_bench/sample_003035/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_up:0.4,move_forward:0.6,rotate_down:0,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3036, + "data_source": "SPAR-Bench", + "question": "Describe the changes in orientation needed to transition from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003036/000.jpg", + "spar_bench/sample_003036/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_forward:0.4,rotate_down:0,rotate_left:55", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3037, + "data_source": "SPAR-Bench", + "question": "What specific camera adjustments explain the transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003037/000.jpg", + "spar_bench/sample_003037/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.4,move_up:0.6,move_forward:0.4,rotate_up:15,rotate_left:85", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3038, + "data_source": "SPAR-Bench", + "question": "If the first image is the reference, what perspective shifts are needed to produce the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003038/000.jpg", + "spar_bench/sample_003038/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.4,move_up:0.4,move_forward:1.4,rotate_down:15,rotate_right:90", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3039, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s position or focus explain the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003039/000.jpg", + "spar_bench/sample_003039/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0.4,move_forward:0.8,rotate_down:0,rotate_right:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3040, + "data_source": "SPAR-Bench", + "question": "How would the observer\u2019s camera need to tilt or shift to capture the second image from the first viewpoint?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003040/000.jpg", + "spar_bench/sample_003040/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_up:0.2,move_forward:0.8,rotate_up:20,rotate_left:125", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3041, + "data_source": "SPAR-Bench", + "question": "What specific camera movements explain the differences between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003041/000.jpg", + "spar_bench/sample_003041/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0.6,rotate_up:10,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3042, + "data_source": "SPAR-Bench", + "question": "What changes in perspective or zoom are required to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003042/000.jpg", + "spar_bench/sample_003042/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_down:0,move_forward:0,rotate_down:0,rotate_right:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3043, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s position or focus explain the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003043/000.jpg", + "spar_bench/sample_003043/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0,rotate_up:5,rotate_left:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3044, + "data_source": "SPAR-Bench", + "question": "What changes in perspective explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003044/000.jpg", + "spar_bench/sample_003044/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0,move_forward:0,rotate_down:0,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3045, + "data_source": "SPAR-Bench", + "question": "Describe the changes in orientation needed to transition from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003045/000.jpg", + "spar_bench/sample_003045/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0,move_backward:0.4,rotate_down:5,rotate_right:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3046, + "data_source": "SPAR-Bench", + "question": "What specific camera movements explain the differences between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003046/000.jpg", + "spar_bench/sample_003046/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:4.8,move_up:0.6,move_backward:0.6,rotate_down:0,rotate_right:70", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3047, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003047/000.jpg", + "spar_bench/sample_003047/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_up:0.4,move_forward:0.6,rotate_down:5,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3048, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint change to capture the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003048/000.jpg", + "spar_bench/sample_003048/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:2.2,move_up:0.8,move_forward:1.4,rotate_up:25,rotate_left:120", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3049, + "data_source": "SPAR-Bench", + "question": "What changes in position or angle would the camera need to make to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003049/000.jpg", + "spar_bench/sample_003049/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0,move_forward:0.2,rotate_down:0,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3050, + "data_source": "SPAR-Bench", + "question": "What changes in angle or distance are necessary to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003050/000.jpg", + "spar_bench/sample_003050/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0.4,move_forward:0.4,rotate_up:15,rotate_right:95", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3051, + "data_source": "SPAR-Bench", + "question": "Describe how the observer\u2019s camera moved or rotated to transition between the two images.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003051/000.jpg", + "spar_bench/sample_003051/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.0,move_down:0,move_backward:0,rotate_down:15,rotate_left:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3052, + "data_source": "SPAR-Bench", + "question": "What specific camera movements explain the differences between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003052/000.jpg", + "spar_bench/sample_003052/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_forward:0.4,rotate_down:0,rotate_right:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3053, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s position or orientation change to achieve the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003053/000.jpg", + "spar_bench/sample_003053/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:3.0,move_down:0,move_backward:1.0,rotate_down:5,rotate_right:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3054, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s position or orientation change to achieve the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003054/000.jpg", + "spar_bench/sample_003054/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_backward:0,rotate_down:0,rotate_left:55", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3055, + "data_source": "SPAR-Bench", + "question": "What observer movement would explain the differences in perspective between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003055/000.jpg", + "spar_bench/sample_003055/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.6,move_down:0,move_forward:0,rotate_up:20,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3056, + "data_source": "SPAR-Bench", + "question": "What observer movement would explain the differences in perspective between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003056/000.jpg", + "spar_bench/sample_003056/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_up:0,move_backward:0,rotate_up:10,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3057, + "data_source": "SPAR-Bench", + "question": "What relative movement of the observer explains the shift from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003057/000.jpg", + "spar_bench/sample_003057/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0,move_forward:0,rotate_up:30,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3058, + "data_source": "SPAR-Bench", + "question": "How must the camera\u2019s position or angle change to shift from the first image\u2019s perspective to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003058/000.jpg", + "spar_bench/sample_003058/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_down:0.2,move_backward:0.6,rotate_down:0,rotate_right:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3059, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perspective would produce the second image starting from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003059/000.jpg", + "spar_bench/sample_003059/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_backward:0,rotate_down:5,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3060, + "data_source": "SPAR-Bench", + "question": "Describe the changes in orientation needed to transition from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003060/000.jpg", + "spar_bench/sample_003060/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0,rotate_down:10,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3061, + "data_source": "SPAR-Bench", + "question": "What specific camera adjustments explain the transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003061/000.jpg", + "spar_bench/sample_003061/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_up:0.4,move_forward:1.0,rotate_down:5,rotate_right:75", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3062, + "data_source": "SPAR-Bench", + "question": "What specific camera adjustments explain the transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003062/000.jpg", + "spar_bench/sample_003062/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_backward:0,rotate_down:0,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 3063, + "data_source": "SPAR-Bench", + "question": "What movement or adjustment of the camera would result in the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003063/000.jpg", + "spar_bench/sample_003063/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.2,move_down:0,move_forward:1.0,rotate_down:15,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3064, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera placement or angle are necessary to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003064/000.jpg", + "spar_bench/sample_003064/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:4.8,move_down:0,move_forward:1.0,rotate_down:25,rotate_left:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3065, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003065/000.jpg", + "spar_bench/sample_003065/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0,rotate_down:5,rotate_right:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3066, + "data_source": "SPAR-Bench", + "question": "What movement or adjustment of the camera would result in the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003066/000.jpg", + "spar_bench/sample_003066/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.8,move_down:0.4,move_forward:1.2,rotate_down:35,rotate_right:80", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3067, + "data_source": "SPAR-Bench", + "question": "What changes in perspective explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003067/000.jpg", + "spar_bench/sample_003067/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_forward:0,rotate_up:15,rotate_left:65", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3068, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003068/000.jpg", + "spar_bench/sample_003068/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_down:0,move_forward:1.0,rotate_down:5,rotate_right:65", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3069, + "data_source": "SPAR-Bench", + "question": "What specific camera movements explain the differences between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003069/000.jpg", + "spar_bench/sample_003069/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_forward:1.0,rotate_down:30,rotate_right:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3070, + "data_source": "SPAR-Bench", + "question": "What changes in perspective explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003070/000.jpg", + "spar_bench/sample_003070/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0.2,move_backward:2.0,rotate_down:10,rotate_left:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3071, + "data_source": "SPAR-Bench", + "question": "From the first image, what adjustments are necessary to achieve the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003071/000.jpg", + "spar_bench/sample_003071/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0,rotate_down:5,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3072, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003072/000.jpg", + "spar_bench/sample_003072/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:2.4,move_forward:3.8,rotate_down:5,rotate_left:145", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3073, + "data_source": "SPAR-Bench", + "question": "What movement or adjustment of the camera would result in the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003073/000.jpg", + "spar_bench/sample_003073/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.2,move_up:0.4,move_forward:0,rotate_up:5,rotate_left:65", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3074, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera angle or position change to produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003074/000.jpg", + "spar_bench/sample_003074/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_down:0,move_backward:0.2,rotate_down:10,rotate_left:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3075, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera placement or angle are necessary to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003075/000.jpg", + "spar_bench/sample_003075/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_down:0,move_backward:1.0,rotate_up:10,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3076, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera move or rotate to recreate the second image from the first perspective?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003076/000.jpg", + "spar_bench/sample_003076/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_down:0.2,move_backward:1.0,rotate_down:0,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3077, + "data_source": "SPAR-Bench", + "question": "Describe how the observer\u2019s camera moved or rotated to transition between the two images.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003077/000.jpg", + "spar_bench/sample_003077/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.6,move_up:2.0,move_forward:4.4,rotate_down:5,rotate_right:170", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3078, + "data_source": "SPAR-Bench", + "question": "If starting from the first image, how would the observer\u2019s camera need to move to recreate the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003078/000.jpg", + "spar_bench/sample_003078/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.8,move_down:0.4,move_backward:2.4,rotate_down:20,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3079, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera angle or position change to produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003079/000.jpg", + "spar_bench/sample_003079/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0,move_forward:0.4,rotate_up:5,rotate_left:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3080, + "data_source": "SPAR-Bench", + "question": "What movement or angle adjustment would produce the second image from the perspective of the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003080/000.jpg", + "spar_bench/sample_003080/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:3.0,move_down:0.8,move_backward:2.0,rotate_up:5,rotate_right:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3081, + "data_source": "SPAR-Bench", + "question": "How must the camera\u2019s position or angle change to shift from the first image\u2019s perspective to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003081/000.jpg", + "spar_bench/sample_003081/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.6,move_up:0.4,move_forward:2.6,rotate_down:15,rotate_right:140", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3082, + "data_source": "SPAR-Bench", + "question": "How must the observer adjust their position to go from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003082/000.jpg", + "spar_bench/sample_003082/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0.2,move_forward:0.4,rotate_up:10,rotate_left:75", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3083, + "data_source": "SPAR-Bench", + "question": "What specific camera movements explain the differences between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003083/000.jpg", + "spar_bench/sample_003083/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_down:1.6,move_backward:4.2,rotate_up:10,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3084, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003084/000.jpg", + "spar_bench/sample_003084/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0.8,move_backward:1.6,rotate_up:55,rotate_left:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3085, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s perspective change to capture the view shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003085/000.jpg", + "spar_bench/sample_003085/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:2.6,move_down:0.6,move_backward:5.2,rotate_down:5,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3086, + "data_source": "SPAR-Bench", + "question": "Describe the relative movement required to transition from the perspective of the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003086/000.jpg", + "spar_bench/sample_003086/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_down:0.2,move_backward:1.4,rotate_up:20,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3087, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003087/000.jpg", + "spar_bench/sample_003087/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:6.0,move_up:0,move_backward:2.8,rotate_down:20,rotate_left:70", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3088, + "data_source": "SPAR-Bench", + "question": "Describe the movement or rotation required to change the perspective from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003088/000.jpg", + "spar_bench/sample_003088/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.2,move_up:1.4,move_forward:2.4,rotate_up:5,rotate_left:85", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3089, + "data_source": "SPAR-Bench", + "question": "What changes in perspective explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003089/000.jpg", + "spar_bench/sample_003089/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.0,move_up:0.6,move_forward:1.8,rotate_down:15,rotate_right:100", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3090, + "data_source": "SPAR-Bench", + "question": "What movement or angle adjustment would produce the second image from the perspective of the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003090/000.jpg", + "spar_bench/sample_003090/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:3.2,move_up:1.8,move_forward:6.4,rotate_down:10,rotate_right:120", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3091, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s point of view shift to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003091/000.jpg", + "spar_bench/sample_003091/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_down:1.0,move_forward:0,rotate_down:50,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3092, + "data_source": "SPAR-Bench", + "question": "From the first image, what adjustments are necessary to achieve the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003092/000.jpg", + "spar_bench/sample_003092/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_up:0.4,move_forward:1.8,rotate_down:20,rotate_right:65", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3093, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003093/000.jpg", + "spar_bench/sample_003093/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0,move_backward:0.6,rotate_up:15,rotate_right:125", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3094, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003094/000.jpg", + "spar_bench/sample_003094/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0,move_backward:0,rotate_down:15,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3095, + "data_source": "SPAR-Bench", + "question": "Describe how the observer\u2019s camera moved or rotated to transition between the two images.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003095/000.jpg", + "spar_bench/sample_003095/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.8,move_down:0,move_forward:0,rotate_down:10,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3096, + "data_source": "SPAR-Bench", + "question": "How would the observer\u2019s camera need to tilt or shift to capture the second image from the first viewpoint?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003096/000.jpg", + "spar_bench/sample_003096/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_up:0,move_forward:0.4,rotate_down:30,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3097, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s position or focus explain the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003097/000.jpg", + "spar_bench/sample_003097/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_up:0,move_forward:0.4,rotate_down:0,rotate_left:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3098, + "data_source": "SPAR-Bench", + "question": "What specific camera movements explain the differences between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003098/000.jpg", + "spar_bench/sample_003098/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.4,move_down:0,move_forward:1.8,rotate_down:20,rotate_left:85", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3099, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera placement or angle are necessary to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003099/000.jpg", + "spar_bench/sample_003099/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:2.6,move_up:0,move_backward:0.4,rotate_down:30,rotate_left:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3100, + "data_source": "SPAR-Bench", + "question": "What adjustments in position or focus would result in the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003100/000.jpg", + "spar_bench/sample_003100/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0.2,move_backward:0,rotate_up:5,rotate_right:80", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3101, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s camera orientation change between capturing the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003101/000.jpg", + "spar_bench/sample_003101/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.8,move_down:0,move_backward:0.6,rotate_up:5,rotate_right:75", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3102, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s perspective change to capture the view shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003102/000.jpg", + "spar_bench/sample_003102/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_down:0,move_forward:0,rotate_down:5,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3103, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s point of view shift to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003103/000.jpg", + "spar_bench/sample_003103/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.2,move_up:0.8,move_forward:1.2,rotate_up:15,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3104, + "data_source": "SPAR-Bench", + "question": "If the first image is the reference, what perspective shifts are needed to produce the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003104/000.jpg", + "spar_bench/sample_003104/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_up:0.6,move_forward:0.4,rotate_up:10,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3105, + "data_source": "SPAR-Bench", + "question": "What specific camera adjustments explain the transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003105/000.jpg", + "spar_bench/sample_003105/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:4.4,move_up:0.6,move_forward:1.6,rotate_up:5,rotate_right:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3106, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s position or focus explain the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003106/000.jpg", + "spar_bench/sample_003106/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0,rotate_down:30,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3107, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera move or rotate to recreate the second image from the first perspective?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003107/000.jpg", + "spar_bench/sample_003107/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.2,move_up:0.6,move_forward:1.8,rotate_down:10,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3108, + "data_source": "SPAR-Bench", + "question": "What changes in angle or distance are necessary to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003108/000.jpg", + "spar_bench/sample_003108/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_up:0.4,move_forward:2.4,rotate_down:5,rotate_left:110", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3109, + "data_source": "SPAR-Bench", + "question": "Describe the movement or rotation required to change the perspective from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003109/000.jpg", + "spar_bench/sample_003109/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.0,move_down:0.8,move_forward:0.8,rotate_down:5,rotate_right:80", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3110, + "data_source": "SPAR-Bench", + "question": "Describe how the observer\u2019s camera moved or rotated to transition between the two images.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003110/000.jpg", + "spar_bench/sample_003110/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0.4,move_backward:0,rotate_down:30,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3111, + "data_source": "SPAR-Bench", + "question": "How must the camera\u2019s position or angle change to shift from the first image\u2019s perspective to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003111/000.jpg", + "spar_bench/sample_003111/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0.2,move_forward:0,rotate_down:5,rotate_left:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3112, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint change to capture the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003112/000.jpg", + "spar_bench/sample_003112/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0.6,move_forward:0.8,rotate_up:35,rotate_right:105", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3113, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera move or rotate to recreate the second image from the first perspective?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003113/000.jpg", + "spar_bench/sample_003113/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0.2,rotate_down:15,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3114, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003114/000.jpg", + "spar_bench/sample_003114/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0,move_backward:0,rotate_up:10,rotate_left:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3115, + "data_source": "SPAR-Bench", + "question": "If the first image is the main perspective, how must the observer move to capture the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003115/000.jpg", + "spar_bench/sample_003115/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.2,move_up:0.2,move_forward:1.2,rotate_down:30,rotate_right:55", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3116, + "data_source": "SPAR-Bench", + "question": "If the first image is the main perspective, how must the observer move to capture the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003116/000.jpg", + "spar_bench/sample_003116/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.4,move_up:1.0,move_forward:0.6,rotate_down:0,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3117, + "data_source": "SPAR-Bench", + "question": "If starting from the first image, how would the observer\u2019s camera need to move to recreate the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003117/000.jpg", + "spar_bench/sample_003117/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_up:0,move_backward:0,rotate_down:5,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3118, + "data_source": "SPAR-Bench", + "question": "If the first image is the main perspective, how must the observer move to capture the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003118/000.jpg", + "spar_bench/sample_003118/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_up:0,move_forward:0.4,rotate_up:10,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3119, + "data_source": "SPAR-Bench", + "question": "What changes in position or angle would the camera need to make to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003119/000.jpg", + "spar_bench/sample_003119/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_down:0.2,move_backward:0.6,rotate_up:35,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3120, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perspective would produce the second image starting from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003120/000.jpg", + "spar_bench/sample_003120/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_forward:0.4,rotate_down:20,rotate_right:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3121, + "data_source": "SPAR-Bench", + "question": "Describe the relative movement required to transition from the perspective of the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003121/000.jpg", + "spar_bench/sample_003121/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0.2,move_backward:0,rotate_down:0,rotate_right:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3122, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s position or orientation change to achieve the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003122/000.jpg", + "spar_bench/sample_003122/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.8,move_up:0.4,move_forward:1.2,rotate_up:5,rotate_left:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3123, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s position or orientation change to achieve the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003123/000.jpg", + "spar_bench/sample_003123/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:4.0,move_up:1.0,move_forward:4.2,rotate_down:10,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3124, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s camera orientation change between capturing the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003124/000.jpg", + "spar_bench/sample_003124/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_down:0,move_forward:0.4,rotate_down:5,rotate_right:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3125, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s viewpoint shift to match the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003125/000.jpg", + "spar_bench/sample_003125/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0.6,move_forward:0.6,rotate_down:0,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3126, + "data_source": "SPAR-Bench", + "question": "In transitioning from the first image to the second, what movement or zoom is necessary?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003126/000.jpg", + "spar_bench/sample_003126/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_down:0,move_backward:1.0,rotate_up:15,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3127, + "data_source": "SPAR-Bench", + "question": "How must the camera\u2019s position or angle change to shift from the first image\u2019s perspective to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003127/000.jpg", + "spar_bench/sample_003127/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.8,move_down:0.8,move_forward:3.0,rotate_down:45,rotate_left:90", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3128, + "data_source": "SPAR-Bench", + "question": "Describe the adjustments in the observer\u2019s position that would result in the second image from the first perspective.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003128/000.jpg", + "spar_bench/sample_003128/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.0,move_up:0,move_backward:0.2,rotate_up:20,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3129, + "data_source": "SPAR-Bench", + "question": "What spatial adjustments are required for the observer to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003129/000.jpg", + "spar_bench/sample_003129/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_down:0,move_forward:0.6,rotate_down:25,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3130, + "data_source": "SPAR-Bench", + "question": "Starting from the first image, how would the observer need to move to achieve the perspective shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003130/000.jpg", + "spar_bench/sample_003130/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_up:0,move_backward:0.8,rotate_up:10,rotate_left:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3131, + "data_source": "SPAR-Bench", + "question": "What changes in perspective explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003131/000.jpg", + "spar_bench/sample_003131/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_backward:0,rotate_up:10,rotate_left:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3132, + "data_source": "SPAR-Bench", + "question": "What perspective adjustments would allow the observer to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003132/000.jpg", + "spar_bench/sample_003132/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.2,move_down:0.6,move_backward:1.0,rotate_up:5,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3133, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perspective would produce the second image starting from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003133/000.jpg", + "spar_bench/sample_003133/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:2.2,move_up:1.0,move_forward:1.6,rotate_down:5,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3134, + "data_source": "SPAR-Bench", + "question": "How would the observer\u2019s camera need to tilt or shift to capture the second image from the first viewpoint?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003134/000.jpg", + "spar_bench/sample_003134/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:3.4,move_down:0.2,move_backward:2.2,rotate_down:10,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3135, + "data_source": "SPAR-Bench", + "question": "What changes in position or angle would the camera need to make to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003135/000.jpg", + "spar_bench/sample_003135/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_down:0,move_forward:0,rotate_up:15,rotate_left:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3136, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera move or rotate to recreate the second image from the first perspective?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003136/000.jpg", + "spar_bench/sample_003136/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_down:0,move_backward:3.2,rotate_up:5,rotate_right:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3137, + "data_source": "SPAR-Bench", + "question": "If starting from the first image, how would the observer\u2019s camera need to move to recreate the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003137/000.jpg", + "spar_bench/sample_003137/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_up:0.4,move_forward:3.0,rotate_down:0,rotate_left:110", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3138, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s position or focus explain the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003138/000.jpg", + "spar_bench/sample_003138/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.4,move_down:0.6,move_backward:2.0,rotate_down:15,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3139, + "data_source": "SPAR-Bench", + "question": "Describe the adjustments in the observer\u2019s position that would result in the second image from the first perspective.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003139/000.jpg", + "spar_bench/sample_003139/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0.4,move_backward:0,rotate_up:15,rotate_right:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3140, + "data_source": "SPAR-Bench", + "question": "What movement or angle adjustment would produce the second image from the perspective of the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003140/000.jpg", + "spar_bench/sample_003140/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:3.4,move_down:0.2,move_backward:0.4,rotate_down:15,rotate_left:85", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3141, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003141/000.jpg", + "spar_bench/sample_003141/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_up:0.6,move_backward:2.2,rotate_down:35,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3142, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint need to shift to create the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003142/000.jpg", + "spar_bench/sample_003142/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_backward:0,rotate_down:5,rotate_left:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3143, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003143/000.jpg", + "spar_bench/sample_003143/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_down:1.0,move_backward:0.6,rotate_down:5,rotate_right:65", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3144, + "data_source": "SPAR-Bench", + "question": "In transitioning from the first image to the second, what movement or zoom is necessary?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003144/000.jpg", + "spar_bench/sample_003144/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0.4,rotate_up:10,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3145, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s position or orientation change to achieve the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003145/000.jpg", + "spar_bench/sample_003145/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_up:0,move_backward:0.4,rotate_up:25,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3146, + "data_source": "SPAR-Bench", + "question": "Starting from the first image, how would the observer need to move to achieve the perspective shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003146/000.jpg", + "spar_bench/sample_003146/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.4,move_up:0.2,move_forward:0.4,rotate_up:25,rotate_left:95", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3147, + "data_source": "SPAR-Bench", + "question": "What changes in perspective or zoom are required to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003147/000.jpg", + "spar_bench/sample_003147/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.0,move_up:0,move_backward:0.2,rotate_up:10,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3148, + "data_source": "SPAR-Bench", + "question": "What movement or adjustment of the camera would result in the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003148/000.jpg", + "spar_bench/sample_003148/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:2.8,move_up:0.4,move_forward:1.4,rotate_up:10,rotate_left:75", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3149, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003149/000.jpg", + "spar_bench/sample_003149/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_up:0,move_forward:0.6,rotate_down:20,rotate_right:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3150, + "data_source": "SPAR-Bench", + "question": "What adjustments in position or focus would result in the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003150/000.jpg", + "spar_bench/sample_003150/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.8,move_up:1.0,move_forward:1.2,rotate_up:15,rotate_right:100", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3151, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003151/000.jpg", + "spar_bench/sample_003151/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_down:2.0,move_backward:2.8,rotate_up:15,rotate_right:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3152, + "data_source": "SPAR-Bench", + "question": "From the first image, what adjustments are necessary to achieve the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003152/000.jpg", + "spar_bench/sample_003152/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_up:1.4,move_forward:2.2,rotate_up:25,rotate_left:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3153, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s position or focus explain the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003153/000.jpg", + "spar_bench/sample_003153/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:4.6,move_up:0,move_forward:0.6,rotate_up:5,rotate_left:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3154, + "data_source": "SPAR-Bench", + "question": "Describe the movement or rotation required to change the perspective from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003154/000.jpg", + "spar_bench/sample_003154/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_down:0,move_backward:0.4,rotate_up:40,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3155, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera placement or angle are necessary to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003155/000.jpg", + "spar_bench/sample_003155/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0.2,move_backward:0,rotate_down:20,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3156, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera placement or angle are necessary to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003156/000.jpg", + "spar_bench/sample_003156/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:2.8,move_up:0.8,move_forward:2.6,rotate_down:0,rotate_right:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3157, + "data_source": "SPAR-Bench", + "question": "What rotational changes would the camera need to make to move from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003157/000.jpg", + "spar_bench/sample_003157/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:1.4,rotate_down:30,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3158, + "data_source": "SPAR-Bench", + "question": "Describe the changes in orientation needed to transition from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003158/000.jpg", + "spar_bench/sample_003158/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.6,move_down:0,move_forward:0,rotate_up:10,rotate_right:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3159, + "data_source": "SPAR-Bench", + "question": "What rotation or movement is needed to change the perspective from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003159/000.jpg", + "spar_bench/sample_003159/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_down:0.4,move_backward:1.4,rotate_up:20,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3160, + "data_source": "SPAR-Bench", + "question": "Describe the changes in orientation needed to transition from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003160/000.jpg", + "spar_bench/sample_003160/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.8,move_up:1.0,move_forward:1.8,rotate_down:0,rotate_left:105", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3161, + "data_source": "SPAR-Bench", + "question": "From the first image, what adjustments are necessary to achieve the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003161/000.jpg", + "spar_bench/sample_003161/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.2,move_up:1.2,move_forward:2.2,rotate_up:20,rotate_left:85", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3162, + "data_source": "SPAR-Bench", + "question": "From the first image, what adjustments are necessary to achieve the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003162/000.jpg", + "spar_bench/sample_003162/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0,move_backward:0,rotate_down:15,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3163, + "data_source": "SPAR-Bench", + "question": "If the first image is the reference, what perspective shifts are needed to produce the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003163/000.jpg", + "spar_bench/sample_003163/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:3.2,move_up:2.2,move_forward:6.6,rotate_up:25,rotate_right:95", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3164, + "data_source": "SPAR-Bench", + "question": "What spatial adjustments are required for the observer to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003164/000.jpg", + "spar_bench/sample_003164/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_up:0.4,move_forward:0.8,rotate_down:10,rotate_right:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3165, + "data_source": "SPAR-Bench", + "question": "If the first image is the main perspective, how must the observer move to capture the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003165/000.jpg", + "spar_bench/sample_003165/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.2,move_up:0,move_forward:0.8,rotate_down:15,rotate_right:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3166, + "data_source": "SPAR-Bench", + "question": "What rotational changes would the camera need to make to move from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003166/000.jpg", + "spar_bench/sample_003166/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_up:0,move_forward:1.0,rotate_down:15,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3167, + "data_source": "SPAR-Bench", + "question": "If the first image is the main perspective, how must the observer move to capture the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003167/000.jpg", + "spar_bench/sample_003167/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_down:0,move_backward:0.4,rotate_down:10,rotate_right:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3168, + "data_source": "SPAR-Bench", + "question": "If the first image is the starting view, what specific movement is required to match the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003168/000.jpg", + "spar_bench/sample_003168/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0.6,move_forward:0.4,rotate_down:5,rotate_right:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3169, + "data_source": "SPAR-Bench", + "question": "What changes in perspective explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003169/000.jpg", + "spar_bench/sample_003169/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_down:0.4,move_backward:0.2,rotate_down:5,rotate_left:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3170, + "data_source": "SPAR-Bench", + "question": "What changes in angle or distance are necessary to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003170/000.jpg", + "spar_bench/sample_003170/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0.4,move_forward:0.6,rotate_up:5,rotate_left:95", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3171, + "data_source": "SPAR-Bench", + "question": "What movement of the camera\u2014forward, backward, or rotational\u2014would produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003171/000.jpg", + "spar_bench/sample_003171/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.4,move_down:0,move_backward:1.2,rotate_up:25,rotate_right:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3172, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s position or orientation change to achieve the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003172/000.jpg", + "spar_bench/sample_003172/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_forward:0.4,rotate_up:10,rotate_left:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3173, + "data_source": "SPAR-Bench", + "question": "Describe the shift in perspective needed to move from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003173/000.jpg", + "spar_bench/sample_003173/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_down:0.4,move_backward:0.6,rotate_down:10,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3174, + "data_source": "SPAR-Bench", + "question": "Describe the movement or rotation required to change the perspective from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003174/000.jpg", + "spar_bench/sample_003174/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.2,move_down:1.8,move_backward:1.6,rotate_up:5,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3175, + "data_source": "SPAR-Bench", + "question": "What movement or angle adjustment would produce the second image from the perspective of the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003175/000.jpg", + "spar_bench/sample_003175/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_down:0,move_forward:1.0,rotate_down:15,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3176, + "data_source": "SPAR-Bench", + "question": "What rotation or movement is needed to change the perspective from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003176/000.jpg", + "spar_bench/sample_003176/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_down:0,move_backward:0.8,rotate_down:15,rotate_left:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3177, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003177/000.jpg", + "spar_bench/sample_003177/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:3.8,move_up:0,move_backward:0,rotate_up:5,rotate_right:85", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3178, + "data_source": "SPAR-Bench", + "question": "What specific camera movements explain the differences between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003178/000.jpg", + "spar_bench/sample_003178/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0.6,move_backward:0,rotate_down:20,rotate_left:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3179, + "data_source": "SPAR-Bench", + "question": "What changes in perspective explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003179/000.jpg", + "spar_bench/sample_003179/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_backward:0.6,rotate_down:0,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3180, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003180/000.jpg", + "spar_bench/sample_003180/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0.6,move_forward:0,rotate_up:5,rotate_left:55", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3181, + "data_source": "SPAR-Bench", + "question": "Describe the adjustments in the observer\u2019s position that would result in the second image from the first perspective.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003181/000.jpg", + "spar_bench/sample_003181/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.4,move_down:0.6,move_forward:1.6,rotate_down:15,rotate_left:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3182, + "data_source": "SPAR-Bench", + "question": "Describe how the observer\u2019s position or orientation must change to go from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003182/000.jpg", + "spar_bench/sample_003182/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_up:0,move_forward:0.2,rotate_up:5,rotate_right:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3183, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint change to capture the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003183/000.jpg", + "spar_bench/sample_003183/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0,rotate_down:5,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3184, + "data_source": "SPAR-Bench", + "question": "What changes in angle or distance are necessary to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003184/000.jpg", + "spar_bench/sample_003184/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0.2,move_forward:1.0,rotate_down:5,rotate_left:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3185, + "data_source": "SPAR-Bench", + "question": "If starting from the first image, how would the observer\u2019s camera need to move to recreate the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003185/000.jpg", + "spar_bench/sample_003185/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_up:0,move_backward:0,rotate_up:20,rotate_left:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3186, + "data_source": "SPAR-Bench", + "question": "What movement or adjustment of the camera would result in the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003186/000.jpg", + "spar_bench/sample_003186/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0.4,move_backward:0.4,rotate_down:10,rotate_right:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3187, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint need to shift to create the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003187/000.jpg", + "spar_bench/sample_003187/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_backward:0.2,rotate_up:5,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3188, + "data_source": "SPAR-Bench", + "question": "What specific camera movements explain the differences between the first and second images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003188/000.jpg", + "spar_bench/sample_003188/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0,move_backward:0,rotate_up:15,rotate_right:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3189, + "data_source": "SPAR-Bench", + "question": "What adjustments in position or focus would result in the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003189/000.jpg", + "spar_bench/sample_003189/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_up:1.8,move_forward:3.6,rotate_up:5,rotate_left:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3190, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003190/000.jpg", + "spar_bench/sample_003190/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0,move_forward:0.4,rotate_down:0,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3191, + "data_source": "SPAR-Bench", + "question": "If the first image is the reference, what perspective shifts are needed to produce the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003191/000.jpg", + "spar_bench/sample_003191/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_down:1.0,move_backward:1.4,rotate_up:20,rotate_right:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3192, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s point of view shift to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003192/000.jpg", + "spar_bench/sample_003192/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:2.8,move_down:0,move_forward:0.4,rotate_down:0,rotate_left:30", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3193, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003193/000.jpg", + "spar_bench/sample_003193/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_down:0,move_forward:1.2,rotate_down:20,rotate_left:70", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3194, + "data_source": "SPAR-Bench", + "question": "What changes in position or angle would the camera need to make to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003194/000.jpg", + "spar_bench/sample_003194/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_up:0.6,move_forward:0.8,rotate_up:10,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3195, + "data_source": "SPAR-Bench", + "question": "Describe how the observer\u2019s position or orientation must change to go from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003195/000.jpg", + "spar_bench/sample_003195/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0,move_backward:0.2,rotate_down:25,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3196, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera placement or angle are necessary to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003196/000.jpg", + "spar_bench/sample_003196/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_up:0,move_backward:0,rotate_down:10,rotate_left:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3197, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s perspective change to capture the view shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003197/000.jpg", + "spar_bench/sample_003197/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0,rotate_down:0,rotate_left:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3198, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera angle or focus explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003198/000.jpg", + "spar_bench/sample_003198/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0.6,move_forward:2.4,rotate_down:0,rotate_left:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3199, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s position or focus explain the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003199/000.jpg", + "spar_bench/sample_003199/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_down:0,move_forward:1.2,rotate_down:15,rotate_left:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3200, + "data_source": "SPAR-Bench", + "question": "From the first image, what adjustments are necessary to achieve the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003200/000.jpg", + "spar_bench/sample_003200/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.6,move_up:0.4,move_backward:0,rotate_up:35,rotate_right:10", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3201, + "data_source": "SPAR-Bench", + "question": "Describe the relative movement required to transition from the perspective of the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003201/000.jpg", + "spar_bench/sample_003201/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:1.8,rotate_down:30,rotate_left:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3202, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s perspective change to capture the view shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003202/000.jpg", + "spar_bench/sample_003202/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_up:2.0,move_forward:1.8,rotate_up:30,rotate_right:120", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3203, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera angle or focus explain the differences between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003203/000.jpg", + "spar_bench/sample_003203/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0.2,move_forward:0.6,rotate_down:15,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3204, + "data_source": "SPAR-Bench", + "question": "If the first image is the main perspective, how must the observer move to capture the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003204/000.jpg", + "spar_bench/sample_003204/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0,move_backward:0.8,rotate_up:25,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3205, + "data_source": "SPAR-Bench", + "question": "If the first image is the main perspective, how must the observer move to capture the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003205/000.jpg", + "spar_bench/sample_003205/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.2,move_up:0.2,move_forward:0.6,rotate_down:0,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3206, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera angle or position change to produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003206/000.jpg", + "spar_bench/sample_003206/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:1.0,move_forward:0.8,rotate_down:10,rotate_right:130", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3207, + "data_source": "SPAR-Bench", + "question": "What observer movement would explain the differences in perspective between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003207/000.jpg", + "spar_bench/sample_003207/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.2,move_up:0.6,move_forward:1.4,rotate_up:10,rotate_right:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3208, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s point of view shift to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003208/000.jpg", + "spar_bench/sample_003208/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.0,move_down:0,move_backward:0.8,rotate_down:35,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3209, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera angle or position change to produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003209/000.jpg", + "spar_bench/sample_003209/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.4,move_up:0.8,move_forward:0.6,rotate_up:25,rotate_right:65", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3210, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s viewpoint shift to match the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003210/000.jpg", + "spar_bench/sample_003210/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.8,move_up:4.0,move_forward:6.6,rotate_up:5,rotate_right:120", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3211, + "data_source": "SPAR-Bench", + "question": "What spatial adjustments are required for the observer to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003211/000.jpg", + "spar_bench/sample_003211/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_down:0,move_forward:0.4,rotate_down:5,rotate_right:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3212, + "data_source": "SPAR-Bench", + "question": "In transitioning from the first image to the second, what movement or zoom is necessary?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003212/000.jpg", + "spar_bench/sample_003212/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0,move_backward:0,rotate_down:20,rotate_left:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3213, + "data_source": "SPAR-Bench", + "question": "What changes in position or angle would the camera need to make to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003213/000.jpg", + "spar_bench/sample_003213/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0.2,move_forward:0.4,rotate_down:20,rotate_right:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3214, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s viewpoint shift to match the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003214/000.jpg", + "spar_bench/sample_003214/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0.4,move_forward:0.6,rotate_up:5,rotate_left:95", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3215, + "data_source": "SPAR-Bench", + "question": "Describe the movement or rotation required to change the perspective from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003215/000.jpg", + "spar_bench/sample_003215/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_down:0,move_backward:0,rotate_down:15,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3216, + "data_source": "SPAR-Bench", + "question": "In transitioning from the first image to the second, what movement or zoom is necessary?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003216/000.jpg", + "spar_bench/sample_003216/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.4,move_up:0.4,move_forward:0.4,rotate_up:5,rotate_left:120", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3217, + "data_source": "SPAR-Bench", + "question": "What changes in perspective or zoom are required to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003217/000.jpg", + "spar_bench/sample_003217/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0.6,rotate_down:5,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3218, + "data_source": "SPAR-Bench", + "question": "Describe how the observer\u2019s camera moved or rotated to transition between the two images.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003218/000.jpg", + "spar_bench/sample_003218/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_down:0.4,move_backward:1.4,rotate_up:20,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3219, + "data_source": "SPAR-Bench", + "question": "How must the observer\u2019s viewpoint shift to match the perspective in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003219/000.jpg", + "spar_bench/sample_003219/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0.2,move_forward:0.2,rotate_down:30,rotate_right:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3220, + "data_source": "SPAR-Bench", + "question": "If starting from the first image, how would the observer\u2019s camera need to move to recreate the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003220/000.jpg", + "spar_bench/sample_003220/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0.4,move_backward:1.0,rotate_down:5,rotate_right:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3221, + "data_source": "SPAR-Bench", + "question": "Describe the changes in focus or orientation needed to transition from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003221/000.jpg", + "spar_bench/sample_003221/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0.6,move_backward:1.0,rotate_up:5,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3222, + "data_source": "SPAR-Bench", + "question": "Describe the movement or rotation required to change the perspective from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003222/000.jpg", + "spar_bench/sample_003222/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.6,move_down:0,move_forward:2.4,rotate_down:25,rotate_right:120", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3223, + "data_source": "SPAR-Bench", + "question": "If starting from the first image, how would the observer\u2019s camera need to move to recreate the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003223/000.jpg", + "spar_bench/sample_003223/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.6,move_down:1.0,move_backward:1.8,rotate_up:20,rotate_right:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3224, + "data_source": "SPAR-Bench", + "question": "In transitioning from the first image to the second, what movement or zoom is necessary?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003224/000.jpg", + "spar_bench/sample_003224/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_forward:0.2,rotate_up:5,rotate_left:35", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3225, + "data_source": "SPAR-Bench", + "question": "What changes in perspective or zoom are required to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003225/000.jpg", + "spar_bench/sample_003225/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.0,move_down:0.4,move_forward:0.4,rotate_down:40,rotate_left:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3226, + "data_source": "SPAR-Bench", + "question": "Describe how the observer\u2019s position or orientation must change to go from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003226/000.jpg", + "spar_bench/sample_003226/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_down:0.4,move_backward:0.4,rotate_down:30,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3227, + "data_source": "SPAR-Bench", + "question": "If starting from the first image, how would the observer\u2019s camera need to move to recreate the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003227/000.jpg", + "spar_bench/sample_003227/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0,move_backward:0,rotate_down:0,rotate_right:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3228, + "data_source": "SPAR-Bench", + "question": "How must the camera\u2019s position or angle change to shift from the first image\u2019s perspective to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003228/000.jpg", + "spar_bench/sample_003228/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_down:0.4,move_backward:1.2,rotate_down:20,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3229, + "data_source": "SPAR-Bench", + "question": "How must the observer adjust their position to go from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003229/000.jpg", + "spar_bench/sample_003229/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0.6,move_backward:0,rotate_up:5,rotate_left:55", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3230, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint change to capture the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003230/000.jpg", + "spar_bench/sample_003230/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.0,move_up:0.2,move_forward:0.4,rotate_up:10,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3231, + "data_source": "SPAR-Bench", + "question": "Describe the relative movement required to transition from the perspective of the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003231/000.jpg", + "spar_bench/sample_003231/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.6,move_down:0.2,move_backward:1.4,rotate_down:10,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3232, + "data_source": "SPAR-Bench", + "question": "What changes in angle or distance are necessary to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003232/000.jpg", + "spar_bench/sample_003232/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_backward:0.4,rotate_up:30,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3233, + "data_source": "SPAR-Bench", + "question": "Describe the changes in orientation needed to transition from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003233/000.jpg", + "spar_bench/sample_003233/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_down:0.4,move_backward:1.4,rotate_down:15,rotate_left:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3234, + "data_source": "SPAR-Bench", + "question": "Describe the relative movement required to transition from the perspective of the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003234/000.jpg", + "spar_bench/sample_003234/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0,move_up:0,move_backward:0.2,rotate_down:10,rotate_left:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3235, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perspective would produce the second image starting from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003235/000.jpg", + "spar_bench/sample_003235/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_up:0.6,move_forward:0.4,rotate_up:10,rotate_left:90", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3236, + "data_source": "SPAR-Bench", + "question": "How should the observer\u2019s camera angle or position change to produce the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003236/000.jpg", + "spar_bench/sample_003236/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.4,move_up:0.4,move_forward:0.4,rotate_up:5,rotate_right:25", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3237, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003237/000.jpg", + "spar_bench/sample_003237/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0.4,move_forward:0,rotate_up:15,rotate_left:0", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3238, + "data_source": "SPAR-Bench", + "question": "What adjustments in position or focus would result in the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003238/000.jpg", + "spar_bench/sample_003238/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_down:0.6,move_backward:0,rotate_down:0,rotate_left:90", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3239, + "data_source": "SPAR-Bench", + "question": "Describe how the observer\u2019s position or orientation must change to go from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003239/000.jpg", + "spar_bench/sample_003239/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.2,move_up:0.6,move_forward:1.6,rotate_up:5,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3240, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera placement or angle are necessary to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003240/000.jpg", + "spar_bench/sample_003240/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:3.8,move_up:0.2,move_backward:0.8,rotate_up:10,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3241, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003241/000.jpg", + "spar_bench/sample_003241/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0.4,move_backward:0.6,rotate_down:10,rotate_right:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3242, + "data_source": "SPAR-Bench", + "question": "What rotational or positional changes are required to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003242/000.jpg", + "spar_bench/sample_003242/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_up:0.2,move_forward:0.8,rotate_down:0,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3243, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint change to capture the second image based on the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003243/000.jpg", + "spar_bench/sample_003243/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.2,move_up:0,move_backward:0.4,rotate_up:5,rotate_right:15", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3244, + "data_source": "SPAR-Bench", + "question": "Starting from the first image, how would the observer need to move to achieve the perspective shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003244/000.jpg", + "spar_bench/sample_003244/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:2.2,move_up:1.8,move_forward:1.8,rotate_up:25,rotate_left:170", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3245, + "data_source": "SPAR-Bench", + "question": "Describe the shift in perspective needed to move from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003245/000.jpg", + "spar_bench/sample_003245/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.2,move_down:0,move_forward:1.0,rotate_down:0,rotate_left:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3246, + "data_source": "SPAR-Bench", + "question": "How would the observer\u2019s camera need to tilt or shift to capture the second image from the first viewpoint?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003246/000.jpg", + "spar_bench/sample_003246/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0.2,move_forward:0.6,rotate_up:5,rotate_right:70", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3247, + "data_source": "SPAR-Bench", + "question": "What adjustments in camera placement or angle are necessary to transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003247/000.jpg", + "spar_bench/sample_003247/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.4,move_up:0,move_forward:0.4,rotate_down:5,rotate_right:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3248, + "data_source": "SPAR-Bench", + "question": "What specific camera adjustments explain the transition from the first view to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003248/000.jpg", + "spar_bench/sample_003248/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.2,move_down:0.4,move_backward:0,rotate_down:15,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3249, + "data_source": "SPAR-Bench", + "question": "From the first image, how should the observer move to replicate the view in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003249/000.jpg", + "spar_bench/sample_003249/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:1.8,move_down:0,move_forward:1.2,rotate_down:20,rotate_right:50", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3250, + "data_source": "SPAR-Bench", + "question": "What movement or angle adjustment would produce the second image from the perspective of the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003250/000.jpg", + "spar_bench/sample_003250/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0,move_backward:0,rotate_down:5,rotate_right:45", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3251, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint need to shift to create the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003251/000.jpg", + "spar_bench/sample_003251/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.8,move_down:1.0,move_backward:0.6,rotate_down:5,rotate_right:65", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3252, + "data_source": "SPAR-Bench", + "question": "Describe the relative movement required to transition from the perspective of the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003252/000.jpg", + "spar_bench/sample_003252/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_up:0,move_forward:0,rotate_down:15,rotate_right:20", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3253, + "data_source": "SPAR-Bench", + "question": "In transitioning from the first image to the second, what movement or zoom is necessary?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003253/000.jpg", + "spar_bench/sample_003253/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.4,move_up:0,move_backward:0,rotate_down:10,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3254, + "data_source": "SPAR-Bench", + "question": "Describe the shift in perspective needed to move from the first image to the second.\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003254/000.jpg", + "spar_bench/sample_003254/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0.2,move_up:0.4,move_forward:0.4,rotate_up:20,rotate_right:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3255, + "data_source": "SPAR-Bench", + "question": "What changes in perspective or zoom are required to transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003255/000.jpg", + "spar_bench/sample_003255/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0.4,move_forward:0,rotate_up:25,rotate_left:5", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3256, + "data_source": "SPAR-Bench", + "question": "Starting from the first image, how would the observer need to move to achieve the perspective shown in the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003256/000.jpg", + "spar_bench/sample_003256/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:2.8,move_down:0,move_forward:0.4,rotate_down:15,rotate_left:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3257, + "data_source": "SPAR-Bench", + "question": "If starting from the first image, how would the observer\u2019s camera need to move to recreate the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003257/000.jpg", + "spar_bench/sample_003257/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0.4,move_forward:1.0,rotate_up:10,rotate_left:110", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3258, + "data_source": "SPAR-Bench", + "question": "What observer movement would explain the differences in perspective between the two images?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003258/000.jpg", + "spar_bench/sample_003258/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.6,move_up:1.0,move_forward:1.0,rotate_up:30,rotate_left:60", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3259, + "data_source": "SPAR-Bench", + "question": "What rotational changes would the camera need to make to move from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003259/000.jpg", + "spar_bench/sample_003259/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.8,move_up:0.4,move_forward:0.6,rotate_down:5,rotate_right:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3260, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s position or focus explain the transition from the first image to the second?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003260/000.jpg", + "spar_bench/sample_003260/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_left:0,move_down:0.2,move_forward:0.4,rotate_down:20,rotate_right:40", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3261, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s viewpoint need to shift to create the second image?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003261/000.jpg", + "spar_bench/sample_003261/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:0.6,move_up:0.2,move_backward:0,rotate_up:35,rotate_left:55", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3262, + "data_source": "SPAR-Bench", + "question": "How did the observer\u2019s point of view shift to create the second image from the first?\nProvide the camera movement and rotation in the following format:\nmove_:,move_:,move_:,rotate_:,rotate_:\n- The first three values are in meters.\n- The last two values are in degrees.\n- Use commas to separate each parameter.\n- Do not include any additional text.\nExample:move_left:2.6,move_down:0.1,move_forward:0.2,rotate_up:10,rotate_left:0", + "image_path": [ + "spar_bench/sample_003262/000.jpg", + "spar_bench/sample_003262/001.jpg" + ], + "data_type": "multi_view", + "answer": "move_right:1.8,move_up:0.4,move_forward:2.4,rotate_down:5,rotate_left:90", + "problem_type": "vci", + "original_question_type": "view_change_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3263, + "data_source": "SPAR-Bench", + "question": "If the books (red point) is 2.5 meters deep, how deep is the bookshelf (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003263/000.jpg", + "spar_bench/sample_003263/001.jpg", + "spar_bench/sample_003263/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3264, + "data_source": "SPAR-Bench", + "question": "The soda stream (red point) at a depth of 1.2 meters serves as a reference. How deep is the dish rack (blue point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003264/000.jpg", + "spar_bench/sample_003264/001.jpg", + "spar_bench/sample_003264/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3265, + "data_source": "SPAR-Bench", + "question": "At 2.5 meters, the ping pong table (red point) sets a depth reference. What is the approximate depth of the stool (blue point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003265/000.jpg", + "spar_bench/sample_003265/001.jpg", + "spar_bench/sample_003265/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3266, + "data_source": "SPAR-Bench", + "question": "Given that display case (red point) is at 2.5 meters, predict the depth of table (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003266/000.jpg", + "spar_bench/sample_003266/001.jpg", + "spar_bench/sample_003266/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3267, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system positions sink (red point) at a depth of 1.5 meters. Predict the depth of soap dispenser (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003267/000.jpg", + "spar_bench/sample_003267/001.jpg", + "spar_bench/sample_003267/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3268, + "data_source": "SPAR-Bench", + "question": "The coffee table (red point) lies at a depth of 2.8 meters. How deep is the center of couch (blue point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003268/000.jpg", + "spar_bench/sample_003268/001.jpg", + "spar_bench/sample_003268/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3269, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the stove (red point) at 1.4 meters depth. What is the depth of the kitchen cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003269/000.jpg", + "spar_bench/sample_003269/001.jpg", + "spar_bench/sample_003269/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3270, + "data_source": "SPAR-Bench", + "question": "The bag (red point) is placed at a depth of 1.4 meters along the Z-axis(camera coordinate system). Estimate the depth of kitchen cabinet (blue point) and Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003270/000.jpg", + "spar_bench/sample_003270/001.jpg", + "spar_bench/sample_003270/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3271, + "data_source": "SPAR-Bench", + "question": "With vending machine (red point) at 5.1 meters, calculate the depth of vending machine (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003271/000.jpg", + "spar_bench/sample_003271/001.jpg", + "spar_bench/sample_003271/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3272, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of towel (red point) at 1.0 meters, calculate the depth of towel (blue point). Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003272/000.jpg", + "spar_bench/sample_003272/001.jpg", + "spar_bench/sample_003272/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3273, + "data_source": "SPAR-Bench", + "question": "With kitchen cabinets (red point) at 2.8 meters, calculate the depth of kitchen cabinets (blue point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003273/000.jpg", + "spar_bench/sample_003273/001.jpg", + "spar_bench/sample_003273/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3274, + "data_source": "SPAR-Bench", + "question": "The bathroom cabinet (red point) is positioned at 1.2 meters depth. Predict the depth of the towel (blue point) and Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003274/000.jpg", + "spar_bench/sample_003274/001.jpg", + "spar_bench/sample_003274/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3275, + "data_source": "SPAR-Bench", + "question": "The refrigerator (red point) lies at 2.7 meters depth. Predict the depth of the stove (blue point) and Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003275/000.jpg", + "spar_bench/sample_003275/001.jpg", + "spar_bench/sample_003275/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3276, + "data_source": "SPAR-Bench", + "question": "The paper towel dispenser (red point) at 1.7 meters serves as a depth marker. What is the depth of the paper towel dispenser (blue point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003276/000.jpg", + "spar_bench/sample_003276/001.jpg", + "spar_bench/sample_003276/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3277, + "data_source": "SPAR-Bench", + "question": "The cabinet (red point) at 2.3 meters serves as a depth marker. What is the depth of the backpack (blue point)? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003277/000.jpg", + "spar_bench/sample_003277/001.jpg", + "spar_bench/sample_003277/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3278, + "data_source": "SPAR-Bench", + "question": "Given the chair (red point) is located at a depth of 1.6 meters in the Z-axis of the camera coordinate system, how far in depth is the table (blue point) at its center? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003278/000.jpg", + "spar_bench/sample_003278/001.jpg", + "spar_bench/sample_003278/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3279, + "data_source": "SPAR-Bench", + "question": "If radiator (red point) has a depth of 2.4 meters, how deep is the curtain (blue point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003279/000.jpg", + "spar_bench/sample_003279/001.jpg", + "spar_bench/sample_003279/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3280, + "data_source": "SPAR-Bench", + "question": "If the couch (red point) lies at a depth of 2.6 meters, how deep is the center of the couch (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003280/000.jpg", + "spar_bench/sample_003280/001.jpg", + "spar_bench/sample_003280/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3281, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of pillow (red point) at 3.6 meters, calculate the depth of laundry hamper (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003281/000.jpg", + "spar_bench/sample_003281/001.jpg", + "spar_bench/sample_003281/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3282, + "data_source": "SPAR-Bench", + "question": "Knowing that the center of books (red point) is 1.8 meters deep, estimate the depth of papers (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003282/000.jpg", + "spar_bench/sample_003282/001.jpg", + "spar_bench/sample_003282/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3283, + "data_source": "SPAR-Bench", + "question": "At a depth of 2.7 meters, the trash bin (red point) serves as a reference. What is the depth of urinal (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003283/000.jpg", + "spar_bench/sample_003283/001.jpg", + "spar_bench/sample_003283/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3284, + "data_source": "SPAR-Bench", + "question": "Knowing clothing (red point) is at 1.5 meters, calculate the depth of bag (blue point) and Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003284/000.jpg", + "spar_bench/sample_003284/001.jpg", + "spar_bench/sample_003284/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3285, + "data_source": "SPAR-Bench", + "question": "If the center of the soap dish (red point) is 1.5 meters deep, what is the depth of toilet paper (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003285/000.jpg", + "spar_bench/sample_003285/001.jpg", + "spar_bench/sample_003285/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3286, + "data_source": "SPAR-Bench", + "question": "The recycling bin (red point) at a depth of 2.2 meters serves as a reference. How deep is the mat (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003286/000.jpg", + "spar_bench/sample_003286/001.jpg", + "spar_bench/sample_003286/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3287, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the chair (red point) at 3.3 meters, predict the depth of the shelf (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003287/000.jpg", + "spar_bench/sample_003287/001.jpg", + "spar_bench/sample_003287/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3288, + "data_source": "SPAR-Bench", + "question": "The mat (red point) is 2.9 meters deep in the camera coordinate system. Predict the depth of the stool (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003288/000.jpg", + "spar_bench/sample_003288/001.jpg", + "spar_bench/sample_003288/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3289, + "data_source": "SPAR-Bench", + "question": "If the monitor (red point) is positioned at 2.2 meters, estimate the depth of the storage shelf (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003289/000.jpg", + "spar_bench/sample_003289/001.jpg", + "spar_bench/sample_003289/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3290, + "data_source": "SPAR-Bench", + "question": "With the book (red point) at 2.2 meters, determine the depth of cosmetic bag (blue point). Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003290/000.jpg", + "spar_bench/sample_003290/001.jpg", + "spar_bench/sample_003290/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3291, + "data_source": "SPAR-Bench", + "question": "Given table (red point) is positioned at 1.5 meters, how deep is the armchair (blue point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003291/000.jpg", + "spar_bench/sample_003291/001.jpg", + "spar_bench/sample_003291/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3292, + "data_source": "SPAR-Bench", + "question": "Knowing that bathroom stall door (red point) is located at 1.1 meters, what is the depth of bathroom stall (blue point)? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003292/000.jpg", + "spar_bench/sample_003292/001.jpg", + "spar_bench/sample_003292/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3293, + "data_source": "SPAR-Bench", + "question": "With the chair (red point) depth measured at 3.3 meters, determine the depth of ball (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003293/000.jpg", + "spar_bench/sample_003293/001.jpg", + "spar_bench/sample_003293/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3294, + "data_source": "SPAR-Bench", + "question": "Given table (red point) is positioned at 3.2 meters, how deep is the recycling bin (blue point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003294/000.jpg", + "spar_bench/sample_003294/001.jpg", + "spar_bench/sample_003294/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3295, + "data_source": "SPAR-Bench", + "question": "With the office chair (red point) depth measured at 1.4 meters, determine the depth of board (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003295/000.jpg", + "spar_bench/sample_003295/001.jpg", + "spar_bench/sample_003295/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3296, + "data_source": "SPAR-Bench", + "question": "The telephone (red point) lies at a depth of 0.6 meters. How deep is the center of toilet paper (blue point)? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003296/000.jpg", + "spar_bench/sample_003296/001.jpg", + "spar_bench/sample_003296/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3297, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system positions kitchen cabinet (red point) at a depth of 1.3 meters. Predict the depth of water bottle (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003297/000.jpg", + "spar_bench/sample_003297/001.jpg", + "spar_bench/sample_003297/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3298, + "data_source": "SPAR-Bench", + "question": "The depth of the pillow (red point) is given as 1.3 meters. Use this to estimate the depth of bookshelf (blue point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003298/000.jpg", + "spar_bench/sample_003298/001.jpg", + "spar_bench/sample_003298/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3299, + "data_source": "SPAR-Bench", + "question": "Knowing that suitcase (red point) is located at 2.7 meters, what is the depth of chair (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003299/000.jpg", + "spar_bench/sample_003299/001.jpg", + "spar_bench/sample_003299/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3300, + "data_source": "SPAR-Bench", + "question": "If the instrument case (red point) lies at a depth of 1.1 meters, how deep is the center of the case of water bottles (blue point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003300/000.jpg", + "spar_bench/sample_003300/001.jpg", + "spar_bench/sample_003300/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3301, + "data_source": "SPAR-Bench", + "question": "Knowing that picture (red point) is located at 1.9 meters, what is the depth of picture (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003301/000.jpg", + "spar_bench/sample_003301/001.jpg", + "spar_bench/sample_003301/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3302, + "data_source": "SPAR-Bench", + "question": "Knowing that the center of chair (red point) is 2.2 meters deep, estimate the depth of recycling bin (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003302/000.jpg", + "spar_bench/sample_003302/001.jpg", + "spar_bench/sample_003302/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3303, + "data_source": "SPAR-Bench", + "question": "With the nightstand (red point) depth measured at 2.3 meters, determine the depth of bed (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003303/000.jpg", + "spar_bench/sample_003303/001.jpg", + "spar_bench/sample_003303/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3304, + "data_source": "SPAR-Bench", + "question": "The lamp (red point) is located at a depth of 2.3 meters. Estimate the depth of the armchair (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003304/000.jpg", + "spar_bench/sample_003304/001.jpg", + "spar_bench/sample_003304/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3305, + "data_source": "SPAR-Bench", + "question": "Given that chair (red point) is at 2.3 meters, predict the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003305/000.jpg", + "spar_bench/sample_003305/001.jpg", + "spar_bench/sample_003305/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3306, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the trash can (red point) at 2.0 meters, predict the depth of the paper towel dispenser (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003306/000.jpg", + "spar_bench/sample_003306/001.jpg", + "spar_bench/sample_003306/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3307, + "data_source": "SPAR-Bench", + "question": "Given chair (red point) is positioned at 1.7 meters, how deep is the office chair (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003307/000.jpg", + "spar_bench/sample_003307/001.jpg", + "spar_bench/sample_003307/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3308, + "data_source": "SPAR-Bench", + "question": "Given printer (red point) is positioned at 0.9 meters, how deep is the printer (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003308/000.jpg", + "spar_bench/sample_003308/001.jpg", + "spar_bench/sample_003308/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3309, + "data_source": "SPAR-Bench", + "question": "The camera measures table (red point) at 1.5 meters depth. Predict the depth of the chair (blue point) and Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003309/000.jpg", + "spar_bench/sample_003309/001.jpg", + "spar_bench/sample_003309/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3310, + "data_source": "SPAR-Bench", + "question": "The book (red point) lies at 2.9 meters depth. Can you estimate the depth of bookshelf (blue point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003310/000.jpg", + "spar_bench/sample_003310/001.jpg", + "spar_bench/sample_003310/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3311, + "data_source": "SPAR-Bench", + "question": "With table (red point) at a depth of 2.1 meters, determine the approximate depth of bench (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003311/000.jpg", + "spar_bench/sample_003311/001.jpg", + "spar_bench/sample_003311/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3312, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of wood (red point) at 1.3 meters, calculate the depth of mattress (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003312/000.jpg", + "spar_bench/sample_003312/001.jpg", + "spar_bench/sample_003312/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3313, + "data_source": "SPAR-Bench", + "question": "The box (red point) lies at 1.7 meters depth. Can you estimate the depth of pillow (blue point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003313/000.jpg", + "spar_bench/sample_003313/001.jpg", + "spar_bench/sample_003313/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3314, + "data_source": "SPAR-Bench", + "question": "If the center of the chair (red point) is 2.0 meters deep, what is the depth of water fountain (blue point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003314/000.jpg", + "spar_bench/sample_003314/001.jpg", + "spar_bench/sample_003314/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3315, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is 1.4 meters deep in the camera coordinate system. Predict the depth of the shelf (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003315/000.jpg", + "spar_bench/sample_003315/001.jpg", + "spar_bench/sample_003315/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3316, + "data_source": "SPAR-Bench", + "question": "Knowing that bathroom stall door (red point) is located at 1.6 meters, what is the depth of toilet (blue point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003316/000.jpg", + "spar_bench/sample_003316/001.jpg", + "spar_bench/sample_003316/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3317, + "data_source": "SPAR-Bench", + "question": "Using the trash can (red point) depth of 1.5 meters, determine the depth of box (blue point). Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003317/000.jpg", + "spar_bench/sample_003317/001.jpg", + "spar_bench/sample_003317/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3318, + "data_source": "SPAR-Bench", + "question": "Given the bed (red point) at 1.9 meters along the positive Z-axis(camera coordinate system), predict the depth of window (blue point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003318/000.jpg", + "spar_bench/sample_003318/001.jpg", + "spar_bench/sample_003318/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3319, + "data_source": "SPAR-Bench", + "question": "Knowing chair (red point) is at 1.2 meters, calculate the depth of desk (blue point) and Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003319/000.jpg", + "spar_bench/sample_003319/001.jpg", + "spar_bench/sample_003319/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3320, + "data_source": "SPAR-Bench", + "question": "Using armchair (red point) at 2.0 meters as a guide, determine the depth of coffee table (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003320/000.jpg", + "spar_bench/sample_003320/001.jpg", + "spar_bench/sample_003320/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3321, + "data_source": "SPAR-Bench", + "question": "The recycling bin (red point) is located at a depth of 1.6 meters. Estimate the depth of the box (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003321/000.jpg", + "spar_bench/sample_003321/001.jpg", + "spar_bench/sample_003321/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3322, + "data_source": "SPAR-Bench", + "question": "The blanket (red point) is placed at a depth of 1.8 meters along the Z-axis(camera coordinate system). Estimate the depth of pillow (blue point) and Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003322/000.jpg", + "spar_bench/sample_003322/001.jpg", + "spar_bench/sample_003322/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3323, + "data_source": "SPAR-Bench", + "question": "The camera measures pillow (red point) at 2.7 meters depth. Predict the depth of the clothing (blue point) and Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003323/000.jpg", + "spar_bench/sample_003323/001.jpg", + "spar_bench/sample_003323/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3324, + "data_source": "SPAR-Bench", + "question": "The window (red point) is located at 2.6 meters in depth. Based on this, calculate the depth of trash can (blue point) and Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003324/000.jpg", + "spar_bench/sample_003324/001.jpg", + "spar_bench/sample_003324/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3325, + "data_source": "SPAR-Bench", + "question": "The toilet paper (red point) is 2.2 meters deep in the camera coordinate system. Predict the depth of the trash bin (blue point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003325/000.jpg", + "spar_bench/sample_003325/001.jpg", + "spar_bench/sample_003325/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3326, + "data_source": "SPAR-Bench", + "question": "Based on the fact that the chair (red point) has a depth of 1.8 meters, what is the depth of the chair (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003326/000.jpg", + "spar_bench/sample_003326/001.jpg", + "spar_bench/sample_003326/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3327, + "data_source": "SPAR-Bench", + "question": "Based on the fact that the desk (red point) has a depth of 2.2 meters, what is the depth of the box (blue point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003327/000.jpg", + "spar_bench/sample_003327/001.jpg", + "spar_bench/sample_003327/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3328, + "data_source": "SPAR-Bench", + "question": "With the bookshelf (red point) having a depth of 1.6 meters, determine the depth of bookshelf (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003328/000.jpg", + "spar_bench/sample_003328/001.jpg", + "spar_bench/sample_003328/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3329, + "data_source": "SPAR-Bench", + "question": "The pillow (red point) lies at 1.9 meters depth. Can you estimate the depth of nightstand (blue point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003329/000.jpg", + "spar_bench/sample_003329/001.jpg", + "spar_bench/sample_003329/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3330, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the box (red point) at 1.7 meters depth. What is the depth of the backpack (blue point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003330/000.jpg", + "spar_bench/sample_003330/001.jpg", + "spar_bench/sample_003330/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3331, + "data_source": "SPAR-Bench", + "question": "Using toilet paper (red point) at 1.5 meters as a guide, determine the depth of toilet (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003331/000.jpg", + "spar_bench/sample_003331/001.jpg", + "spar_bench/sample_003331/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3332, + "data_source": "SPAR-Bench", + "question": "The guitar (red point) is located at 1.7 meters in depth. Based on this, calculate the depth of cabinet (blue point) and Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003332/000.jpg", + "spar_bench/sample_003332/001.jpg", + "spar_bench/sample_003332/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3333, + "data_source": "SPAR-Bench", + "question": "Using range hood (red point) at 2.0 meters as a guide, determine the depth of kitchen cabinet (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003333/000.jpg", + "spar_bench/sample_003333/001.jpg", + "spar_bench/sample_003333/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3334, + "data_source": "SPAR-Bench", + "question": "Knowing that books (red point) is located at 1.6 meters, what is the depth of books (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003334/000.jpg", + "spar_bench/sample_003334/001.jpg", + "spar_bench/sample_003334/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3335, + "data_source": "SPAR-Bench", + "question": "The depth of window (red point) is measured as 2.4 meters. Use this to find the depth of shelf (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003335/000.jpg", + "spar_bench/sample_003335/001.jpg", + "spar_bench/sample_003335/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3336, + "data_source": "SPAR-Bench", + "question": "At a depth of 1.2 meters, the drawer (red point) serves as a reference. What is the depth of office chair (blue point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003336/000.jpg", + "spar_bench/sample_003336/001.jpg", + "spar_bench/sample_003336/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3337, + "data_source": "SPAR-Bench", + "question": "Given that ottoman (red point) is at 2.4 meters, predict the depth of ottoman (blue point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003337/000.jpg", + "spar_bench/sample_003337/001.jpg", + "spar_bench/sample_003337/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3338, + "data_source": "SPAR-Bench", + "question": "If the kitchen counter (red point) lies at a depth of 1.3 meters, how deep is the center of the kitchen cabinets (blue point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003338/000.jpg", + "spar_bench/sample_003338/001.jpg", + "spar_bench/sample_003338/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3339, + "data_source": "SPAR-Bench", + "question": "Given coffee table (red point) is positioned at 2.5 meters, how deep is the couch (blue point)? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003339/000.jpg", + "spar_bench/sample_003339/001.jpg", + "spar_bench/sample_003339/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3340, + "data_source": "SPAR-Bench", + "question": "The depth of trash can (red point) is measured as 2.9 meters. Use this to find the depth of desk (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003340/000.jpg", + "spar_bench/sample_003340/001.jpg", + "spar_bench/sample_003340/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3341, + "data_source": "SPAR-Bench", + "question": "With backpack (red point) at a depth of 1.9 meters, determine the approximate depth of table (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003341/000.jpg", + "spar_bench/sample_003341/001.jpg", + "spar_bench/sample_003341/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3342, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is positioned at 2.0 meters depth. Predict the depth of the cabinet (blue point) and Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003342/000.jpg", + "spar_bench/sample_003342/001.jpg", + "spar_bench/sample_003342/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3343, + "data_source": "SPAR-Bench", + "question": "If the center of the clothes dryers (red point) is 5.1 meters deep, what is the depth of machine (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003343/000.jpg", + "spar_bench/sample_003343/001.jpg", + "spar_bench/sample_003343/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3344, + "data_source": "SPAR-Bench", + "question": "Given windowsill (red point) is positioned at 2.7 meters, how deep is the headphones (blue point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003344/000.jpg", + "spar_bench/sample_003344/001.jpg", + "spar_bench/sample_003344/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3345, + "data_source": "SPAR-Bench", + "question": "The kitchen counter (red point) is 3.0 meters deep in the camera coordinate system. Predict the depth of the kitchen cabinet (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003345/000.jpg", + "spar_bench/sample_003345/001.jpg", + "spar_bench/sample_003345/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3346, + "data_source": "SPAR-Bench", + "question": "With the boiler (red point) at 2.3 meters, determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003346/000.jpg", + "spar_bench/sample_003346/001.jpg", + "spar_bench/sample_003346/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3347, + "data_source": "SPAR-Bench", + "question": "The bed (red point) is located at a depth of 2.0 meters. Estimate the depth of the window (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003347/000.jpg", + "spar_bench/sample_003347/001.jpg", + "spar_bench/sample_003347/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3348, + "data_source": "SPAR-Bench", + "question": "Knowing that the center of chair (red point) is 1.4 meters deep, estimate the depth of oven (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003348/000.jpg", + "spar_bench/sample_003348/001.jpg", + "spar_bench/sample_003348/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3349, + "data_source": "SPAR-Bench", + "question": "Based on the fact that the books (red point) has a depth of 2.9 meters, what is the depth of the backpack (blue point)? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003349/000.jpg", + "spar_bench/sample_003349/001.jpg", + "spar_bench/sample_003349/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3350, + "data_source": "SPAR-Bench", + "question": "Based on the fact that the cabinet (red point) has a depth of 2.3 meters, what is the depth of the recycling bin (blue point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003350/000.jpg", + "spar_bench/sample_003350/001.jpg", + "spar_bench/sample_003350/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3351, + "data_source": "SPAR-Bench", + "question": "With the chair (red point) center located at 2.8 meters in the camera Z-axis(camera coordinate system), determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003351/000.jpg", + "spar_bench/sample_003351/001.jpg", + "spar_bench/sample_003351/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3352, + "data_source": "SPAR-Bench", + "question": "Based on the fact that the refrigerator (red point) has a depth of 1.6 meters, what is the depth of the stove (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003352/000.jpg", + "spar_bench/sample_003352/001.jpg", + "spar_bench/sample_003352/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3353, + "data_source": "SPAR-Bench", + "question": "Using the coffee table (red point) depth of 1.4 meters, determine the depth of couch (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003353/000.jpg", + "spar_bench/sample_003353/001.jpg", + "spar_bench/sample_003353/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3354, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of chair (red point) at 2.3 meters, calculate the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003354/000.jpg", + "spar_bench/sample_003354/001.jpg", + "spar_bench/sample_003354/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3355, + "data_source": "SPAR-Bench", + "question": "Using the pillow (red point) depth of 3.0 meters, determine the depth of radiator (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003355/000.jpg", + "spar_bench/sample_003355/001.jpg", + "spar_bench/sample_003355/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3356, + "data_source": "SPAR-Bench", + "question": "Based on the fact that the sink (red point) has a depth of 1.7 meters, what is the depth of the kitchen cabinets (blue point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003356/000.jpg", + "spar_bench/sample_003356/001.jpg", + "spar_bench/sample_003356/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3357, + "data_source": "SPAR-Bench", + "question": "The depth of the chair (red point) is given as 1.4 meters. Use this to estimate the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003357/000.jpg", + "spar_bench/sample_003357/001.jpg", + "spar_bench/sample_003357/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3358, + "data_source": "SPAR-Bench", + "question": "The armchair (red point) is located at a depth of 1.7 meters. What is the depth of the armchair (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003358/000.jpg", + "spar_bench/sample_003358/001.jpg", + "spar_bench/sample_003358/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3359, + "data_source": "SPAR-Bench", + "question": "With monitor (red point) at a depth of 2.4 meters, determine the approximate depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003359/000.jpg", + "spar_bench/sample_003359/001.jpg", + "spar_bench/sample_003359/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3360, + "data_source": "SPAR-Bench", + "question": "The toilet (red point) is located at a depth of 2.2 meters. Estimate the depth of the toilet paper holder (blue point). Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003360/000.jpg", + "spar_bench/sample_003360/001.jpg", + "spar_bench/sample_003360/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3361, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is measured as 2.1 meters. Use this to find the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003361/000.jpg", + "spar_bench/sample_003361/001.jpg", + "spar_bench/sample_003361/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3362, + "data_source": "SPAR-Bench", + "question": "The depth of the pillow (red point) is recorded at 1.5 meters. Estimate the depth of box (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003362/000.jpg", + "spar_bench/sample_003362/001.jpg", + "spar_bench/sample_003362/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3363, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the toilet paper (red point) at 1.2 meters, predict the depth of the shelf (blue point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003363/000.jpg", + "spar_bench/sample_003363/001.jpg", + "spar_bench/sample_003363/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3364, + "data_source": "SPAR-Bench", + "question": "If the center of the mailbox (red point) is 2.0 meters deep, what is the depth of trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003364/000.jpg", + "spar_bench/sample_003364/001.jpg", + "spar_bench/sample_003364/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3365, + "data_source": "SPAR-Bench", + "question": "If the center of the banner (red point) is 2.3 meters deep, what is the depth of plant (blue point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003365/000.jpg", + "spar_bench/sample_003365/001.jpg", + "spar_bench/sample_003365/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3366, + "data_source": "SPAR-Bench", + "question": "Using the window (red point) depth of 2.0 meters, determine the depth of curtains (blue point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003366/000.jpg", + "spar_bench/sample_003366/001.jpg", + "spar_bench/sample_003366/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3367, + "data_source": "SPAR-Bench", + "question": "The coffee table (red point) at 1.1 meters serves as a depth reference. What is the approximate depth of the backpack (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003367/000.jpg", + "spar_bench/sample_003367/001.jpg", + "spar_bench/sample_003367/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3368, + "data_source": "SPAR-Bench", + "question": "The sink (red point) lies at 1.4 meters depth. Predict the depth of the sink (blue point) and Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003368/000.jpg", + "spar_bench/sample_003368/001.jpg", + "spar_bench/sample_003368/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3369, + "data_source": "SPAR-Bench", + "question": "The center of the chair (red point) is positioned at 1.2 meters. Based on this, predict the depth of the center of the chair (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003369/000.jpg", + "spar_bench/sample_003369/001.jpg", + "spar_bench/sample_003369/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3370, + "data_source": "SPAR-Bench", + "question": "If the bottle (red point) lies at a depth of 1.0 meters, how deep is the center of the jar (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003370/000.jpg", + "spar_bench/sample_003370/001.jpg", + "spar_bench/sample_003370/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3371, + "data_source": "SPAR-Bench", + "question": "With the chair (red point) center located at 3.3 meters in the camera Z-axis(camera coordinate system), determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003371/000.jpg", + "spar_bench/sample_003371/001.jpg", + "spar_bench/sample_003371/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3372, + "data_source": "SPAR-Bench", + "question": "The books (red point) lies at 3.6 meters depth. Can you estimate the depth of books (blue point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003372/000.jpg", + "spar_bench/sample_003372/001.jpg", + "spar_bench/sample_003372/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3373, + "data_source": "SPAR-Bench", + "question": "Given that box (red point) is at 1.6 meters, predict the depth of box (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003373/000.jpg", + "spar_bench/sample_003373/001.jpg", + "spar_bench/sample_003373/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3374, + "data_source": "SPAR-Bench", + "question": "Based on the fact that the shoes (red point) has a depth of 3.2 meters, what is the depth of the cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003374/000.jpg", + "spar_bench/sample_003374/001.jpg", + "spar_bench/sample_003374/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3375, + "data_source": "SPAR-Bench", + "question": "Given that backpack (red point) is at 2.1 meters, predict the depth of shoes (blue point). Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003375/000.jpg", + "spar_bench/sample_003375/001.jpg", + "spar_bench/sample_003375/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3376, + "data_source": "SPAR-Bench", + "question": "The books (red point) lies at a depth of 1.5 meters. How deep is the center of rack stand (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003376/000.jpg", + "spar_bench/sample_003376/001.jpg", + "spar_bench/sample_003376/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3377, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system positions paper towel dispenser (red point) at a depth of 1.3 meters. Predict the depth of sign (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003377/000.jpg", + "spar_bench/sample_003377/001.jpg", + "spar_bench/sample_003377/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3378, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system specifies the armchair (red point) depth as 3.1 meters. Estimate the depth of the pillow (blue point) and . Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003378/000.jpg", + "spar_bench/sample_003378/001.jpg", + "spar_bench/sample_003378/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3379, + "data_source": "SPAR-Bench", + "question": "The table (red point) lies at a depth of 1.5 meters. How deep is the center of table (blue point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003379/000.jpg", + "spar_bench/sample_003379/001.jpg", + "spar_bench/sample_003379/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3380, + "data_source": "SPAR-Bench", + "question": "Using backpack (red point) as a reference with its center at 2.2 meters depth, calculate the depth of whiteboard (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003380/000.jpg", + "spar_bench/sample_003380/001.jpg", + "spar_bench/sample_003380/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3381, + "data_source": "SPAR-Bench", + "question": "The pillow (red point) is located at a depth of 2.3 meters. What is the depth of the monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003381/000.jpg", + "spar_bench/sample_003381/001.jpg", + "spar_bench/sample_003381/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3382, + "data_source": "SPAR-Bench", + "question": "Given the armchair (red point) is located at a depth of 2.7 meters in the Z-axis of the camera coordinate system, how far in depth is the armchair (blue point) at its center? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003382/000.jpg", + "spar_bench/sample_003382/001.jpg", + "spar_bench/sample_003382/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3383, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the window (red point) at 1.8 meters, predict the depth of the bed (blue point). Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003383/000.jpg", + "spar_bench/sample_003383/001.jpg", + "spar_bench/sample_003383/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3384, + "data_source": "SPAR-Bench", + "question": "The depth of the trash can (red point) is given as 1.2 meters. Use this to estimate the depth of toilet (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003384/000.jpg", + "spar_bench/sample_003384/001.jpg", + "spar_bench/sample_003384/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3385, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system specifies the table (red point) depth as 1.9 meters. Estimate the depth of the chair (blue point) and . Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003385/000.jpg", + "spar_bench/sample_003385/001.jpg", + "spar_bench/sample_003385/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3386, + "data_source": "SPAR-Bench", + "question": "Given the trash can (red point) is located at a depth of 1.8 meters in the Z-axis of the camera coordinate system, how far in depth is the soap dish (blue point) at its center? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003386/000.jpg", + "spar_bench/sample_003386/001.jpg", + "spar_bench/sample_003386/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3387, + "data_source": "SPAR-Bench", + "question": "Knowing that the center of bench (red point) is 4.8 meters deep, estimate the depth of coffee table (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003387/000.jpg", + "spar_bench/sample_003387/001.jpg", + "spar_bench/sample_003387/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3388, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the towel (red point) at 1.1 meters, predict the depth of the picture (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003388/000.jpg", + "spar_bench/sample_003388/001.jpg", + "spar_bench/sample_003388/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3389, + "data_source": "SPAR-Bench", + "question": "At 1.0 meters, the sink (red point) sets the depth reference. Calculate the depth of the toilet (blue point) and Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003389/000.jpg", + "spar_bench/sample_003389/001.jpg", + "spar_bench/sample_003389/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3390, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the chair (red point) at 2.9 meters, predict the depth of the chair (blue point). Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003390/000.jpg", + "spar_bench/sample_003390/001.jpg", + "spar_bench/sample_003390/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3391, + "data_source": "SPAR-Bench", + "question": "Knowing that bathroom cabinet (red point) is located at 1.4 meters, what is the depth of toilet (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003391/000.jpg", + "spar_bench/sample_003391/001.jpg", + "spar_bench/sample_003391/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3392, + "data_source": "SPAR-Bench", + "question": "Given chair (red point) is positioned at 2.8 meters, how deep is the chair (blue point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003392/000.jpg", + "spar_bench/sample_003392/001.jpg", + "spar_bench/sample_003392/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3393, + "data_source": "SPAR-Bench", + "question": "Given the tissue box (red point) is located at a depth of 1.1 meters in the Z-axis of the camera coordinate system, how far in depth is the bathroom vanity (blue point) at its center? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003393/000.jpg", + "spar_bench/sample_003393/001.jpg", + "spar_bench/sample_003393/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3394, + "data_source": "SPAR-Bench", + "question": "Knowing chair (red point) is at 0.9 meters, calculate the depth of chair (blue point) and Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003394/000.jpg", + "spar_bench/sample_003394/001.jpg", + "spar_bench/sample_003394/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3395, + "data_source": "SPAR-Bench", + "question": "The backpack (red point) lies at 2.1 meters depth. Predict the depth of the pillow (blue point) and Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003395/000.jpg", + "spar_bench/sample_003395/001.jpg", + "spar_bench/sample_003395/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3396, + "data_source": "SPAR-Bench", + "question": "With the paper bag (red point) having a depth of 1.6 meters, determine the depth of backpack (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003396/000.jpg", + "spar_bench/sample_003396/001.jpg", + "spar_bench/sample_003396/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3397, + "data_source": "SPAR-Bench", + "question": "The chair (red point) at a depth of 1.4 meters serves as a reference. How deep is the monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003397/000.jpg", + "spar_bench/sample_003397/001.jpg", + "spar_bench/sample_003397/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3398, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the rail (red point) at 1.2 meters depth. What is the depth of the sink (blue point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003398/000.jpg", + "spar_bench/sample_003398/001.jpg", + "spar_bench/sample_003398/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3399, + "data_source": "SPAR-Bench", + "question": "Given the power outlet (red point) is located at a depth of 1.5 meters in the Z-axis of the camera coordinate system, how far in depth is the window (blue point) at its center? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003399/000.jpg", + "spar_bench/sample_003399/001.jpg", + "spar_bench/sample_003399/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3400, + "data_source": "SPAR-Bench", + "question": "Given that printer (red point) is at 1.4 meters, predict the depth of printer (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003400/000.jpg", + "spar_bench/sample_003400/001.jpg", + "spar_bench/sample_003400/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3401, + "data_source": "SPAR-Bench", + "question": "Using refrigerator (red point) as a reference with its center at 1.3 meters depth, calculate the depth of stove (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003401/000.jpg", + "spar_bench/sample_003401/001.jpg", + "spar_bench/sample_003401/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3402, + "data_source": "SPAR-Bench", + "question": "If the center of the sink (red point) is 1.6 meters deep, what is the depth of sign (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003402/000.jpg", + "spar_bench/sample_003402/001.jpg", + "spar_bench/sample_003402/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3403, + "data_source": "SPAR-Bench", + "question": "Given that chair (red point) is at 1.3 meters, predict the depth of recycling bin (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003403/000.jpg", + "spar_bench/sample_003403/001.jpg", + "spar_bench/sample_003403/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3404, + "data_source": "SPAR-Bench", + "question": "Using the range hood (red point) depth of 1.3 meters, determine the depth of bag of coffee beans (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003404/000.jpg", + "spar_bench/sample_003404/001.jpg", + "spar_bench/sample_003404/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3405, + "data_source": "SPAR-Bench", + "question": "With chair (red point) at a depth of 1.8 meters, determine the approximate depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003405/000.jpg", + "spar_bench/sample_003405/001.jpg", + "spar_bench/sample_003405/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3406, + "data_source": "SPAR-Bench", + "question": "The keyboard piano (red point) lies at a depth of 1.5 meters. How deep is the center of box (blue point)? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003406/000.jpg", + "spar_bench/sample_003406/001.jpg", + "spar_bench/sample_003406/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3407, + "data_source": "SPAR-Bench", + "question": "The camera measures broom (red point) at 2.3 meters depth. Predict the depth of the trash can (blue point) and Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003407/000.jpg", + "spar_bench/sample_003407/001.jpg", + "spar_bench/sample_003407/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3408, + "data_source": "SPAR-Bench", + "question": "With the chair (red point) center located at 3.0 meters in the camera Z-axis(camera coordinate system), determine the depth of tv (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003408/000.jpg", + "spar_bench/sample_003408/001.jpg", + "spar_bench/sample_003408/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3409, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the chair (red point) at 3.0 meters depth. What is the depth of the chair (blue point)? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003409/000.jpg", + "spar_bench/sample_003409/001.jpg", + "spar_bench/sample_003409/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3410, + "data_source": "SPAR-Bench", + "question": "Using the chair (red point) depth of 1.5 meters, determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003410/000.jpg", + "spar_bench/sample_003410/001.jpg", + "spar_bench/sample_003410/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3411, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the pillow (red point) at 3.3 meters depth. What is the depth of the trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003411/000.jpg", + "spar_bench/sample_003411/001.jpg", + "spar_bench/sample_003411/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3412, + "data_source": "SPAR-Bench", + "question": "With chair (red point) at a depth of 5.0 meters, determine the approximate depth of stack of chairs (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003412/000.jpg", + "spar_bench/sample_003412/001.jpg", + "spar_bench/sample_003412/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3413, + "data_source": "SPAR-Bench", + "question": "If the broom (red point) lies at a depth of 4.8 meters, how deep is the center of the cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003413/000.jpg", + "spar_bench/sample_003413/001.jpg", + "spar_bench/sample_003413/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3414, + "data_source": "SPAR-Bench", + "question": "Knowing that mirror (red point) is located at 2.7 meters, what is the depth of plant (blue point)? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003414/000.jpg", + "spar_bench/sample_003414/001.jpg", + "spar_bench/sample_003414/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3415, + "data_source": "SPAR-Bench", + "question": "The window (red point) is located at 3.9 meters in depth. Based on this, calculate the depth of couch (blue point) and Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003415/000.jpg", + "spar_bench/sample_003415/001.jpg", + "spar_bench/sample_003415/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3416, + "data_source": "SPAR-Bench", + "question": "The bookshelf (red point) at a depth of 4.3 meters serves as a reference. How deep is the papers (blue point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003416/000.jpg", + "spar_bench/sample_003416/001.jpg", + "spar_bench/sample_003416/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3417, + "data_source": "SPAR-Bench", + "question": "At 5.2 meters, the dispenser (red point) sets the depth reference. Calculate the depth of the trash can (blue point) and Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003417/000.jpg", + "spar_bench/sample_003417/001.jpg", + "spar_bench/sample_003417/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3418, + "data_source": "SPAR-Bench", + "question": "Given table (red point) is positioned at 3.2 meters, how deep is the picture (blue point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003418/000.jpg", + "spar_bench/sample_003418/001.jpg", + "spar_bench/sample_003418/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3419, + "data_source": "SPAR-Bench", + "question": "Using chair (red point) at 1.6 meters as a guide, determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003419/000.jpg", + "spar_bench/sample_003419/001.jpg", + "spar_bench/sample_003419/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3420, + "data_source": "SPAR-Bench", + "question": "The depth of the backpack (red point) is recorded at 1.9 meters. Estimate the depth of coffee table (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003420/000.jpg", + "spar_bench/sample_003420/001.jpg", + "spar_bench/sample_003420/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3421, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the cabinet (red point) at 1.3 meters depth. What is the depth of the clothes (blue point)? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003421/000.jpg", + "spar_bench/sample_003421/001.jpg", + "spar_bench/sample_003421/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3422, + "data_source": "SPAR-Bench", + "question": "The monitor (red point) lies at 1.3 meters depth. Can you estimate the depth of keyboard (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003422/000.jpg", + "spar_bench/sample_003422/001.jpg", + "spar_bench/sample_003422/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3423, + "data_source": "SPAR-Bench", + "question": "At 2.6 meters, the chair (red point) sets a depth reference. What is the approximate depth of the monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003423/000.jpg", + "spar_bench/sample_003423/001.jpg", + "spar_bench/sample_003423/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3424, + "data_source": "SPAR-Bench", + "question": "The depth of the armchair (red point) is given as 2.2 meters. Use this to estimate the depth of table (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003424/000.jpg", + "spar_bench/sample_003424/001.jpg", + "spar_bench/sample_003424/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3425, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the microwave (red point) at 2.6 meters depth. What is the depth of the kitchen counter (blue point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003425/000.jpg", + "spar_bench/sample_003425/001.jpg", + "spar_bench/sample_003425/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3426, + "data_source": "SPAR-Bench", + "question": "Given microwave (red point) is positioned at 1.4 meters, how deep is the books (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003426/000.jpg", + "spar_bench/sample_003426/001.jpg", + "spar_bench/sample_003426/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3427, + "data_source": "SPAR-Bench", + "question": "With the kitchen glove (red point) center located at 1.3 meters in the camera Z-axis(camera coordinate system), determine the depth of jar (blue point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003427/000.jpg", + "spar_bench/sample_003427/001.jpg", + "spar_bench/sample_003427/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3428, + "data_source": "SPAR-Bench", + "question": "The paper towel package (red point) lies at a depth of 1.0 meters. How deep is the center of jar (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003428/000.jpg", + "spar_bench/sample_003428/001.jpg", + "spar_bench/sample_003428/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3429, + "data_source": "SPAR-Bench", + "question": "The box (red point) at a depth of 1.7 meters serves as a reference. How deep is the table (blue point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003429/000.jpg", + "spar_bench/sample_003429/001.jpg", + "spar_bench/sample_003429/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3430, + "data_source": "SPAR-Bench", + "question": "With the bedframe (red point) center located at 2.4 meters in the camera Z-axis(camera coordinate system), determine the depth of comforter (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003430/000.jpg", + "spar_bench/sample_003430/001.jpg", + "spar_bench/sample_003430/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3431, + "data_source": "SPAR-Bench", + "question": "Given the monitor (red point) at 1.9 meters along the positive Z-axis(camera coordinate system), predict the depth of monitor (blue point). Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003431/000.jpg", + "spar_bench/sample_003431/001.jpg", + "spar_bench/sample_003431/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3432, + "data_source": "SPAR-Bench", + "question": "Knowing that box (red point) is located at 0.9 meters, what is the depth of box (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003432/000.jpg", + "spar_bench/sample_003432/001.jpg", + "spar_bench/sample_003432/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3433, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the stove (red point) at 1.4 meters, predict the depth of the shelf (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003433/000.jpg", + "spar_bench/sample_003433/001.jpg", + "spar_bench/sample_003433/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3434, + "data_source": "SPAR-Bench", + "question": "If the towel (red point) is positioned at 1.8 meters, estimate the depth of the bathtub (blue point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003434/000.jpg", + "spar_bench/sample_003434/001.jpg", + "spar_bench/sample_003434/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3435, + "data_source": "SPAR-Bench", + "question": "If the pipe (red point) is 2.2 meters deep, how deep is the pipe (blue point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003435/000.jpg", + "spar_bench/sample_003435/001.jpg", + "spar_bench/sample_003435/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3436, + "data_source": "SPAR-Bench", + "question": "Knowing that the center of table (red point) is 3.5 meters deep, estimate the depth of chair (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003436/000.jpg", + "spar_bench/sample_003436/001.jpg", + "spar_bench/sample_003436/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3437, + "data_source": "SPAR-Bench", + "question": "Knowing the depth of the pan (red point) at 2.9 meters, predict the depth of the power socket (blue point). Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003437/000.jpg", + "spar_bench/sample_003437/001.jpg", + "spar_bench/sample_003437/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3438, + "data_source": "SPAR-Bench", + "question": "The heater (red point) at 2.7 meters serves as a depth marker. What is the depth of the table (blue point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003438/000.jpg", + "spar_bench/sample_003438/001.jpg", + "spar_bench/sample_003438/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3439, + "data_source": "SPAR-Bench", + "question": "The depth of the headphone holder (red point) at its center is measured as 2.0 meters. Estimate the depth of the pliers (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003439/000.jpg", + "spar_bench/sample_003439/001.jpg", + "spar_bench/sample_003439/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3440, + "data_source": "SPAR-Bench", + "question": "The depth of the carpet (red point) at its center is measured as 1.8 meters. Estimate the depth of the backpack (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003440/000.jpg", + "spar_bench/sample_003440/001.jpg", + "spar_bench/sample_003440/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3441, + "data_source": "SPAR-Bench", + "question": "The bottle (red point) is located at a depth of 1.4 meters. Estimate the depth of the bottle (blue point). Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003441/000.jpg", + "spar_bench/sample_003441/001.jpg", + "spar_bench/sample_003441/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3442, + "data_source": "SPAR-Bench", + "question": "With the trash bin (red point) at 2.0 meters, determine the depth of paper stapler (blue point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003442/000.jpg", + "spar_bench/sample_003442/001.jpg", + "spar_bench/sample_003442/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3443, + "data_source": "SPAR-Bench", + "question": "With the jacket (red point) at 0.8 meters, determine the depth of lamp (blue point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003443/000.jpg", + "spar_bench/sample_003443/001.jpg", + "spar_bench/sample_003443/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3444, + "data_source": "SPAR-Bench", + "question": "The kettle (red point) at 1.7 meters serves as a depth marker. What is the depth of the instant pot (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003444/000.jpg", + "spar_bench/sample_003444/001.jpg", + "spar_bench/sample_003444/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3445, + "data_source": "SPAR-Bench", + "question": "With the box (red point) having a depth of 1.6 meters, determine the depth of box (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003445/000.jpg", + "spar_bench/sample_003445/001.jpg", + "spar_bench/sample_003445/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3446, + "data_source": "SPAR-Bench", + "question": "Using printer (red point) at 3.8 meters as a guide, determine the depth of box (blue point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003446/000.jpg", + "spar_bench/sample_003446/001.jpg", + "spar_bench/sample_003446/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3447, + "data_source": "SPAR-Bench", + "question": "If the pipe (red point) is 4.9 meters deep, how deep is the pipe (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003447/000.jpg", + "spar_bench/sample_003447/001.jpg", + "spar_bench/sample_003447/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3448, + "data_source": "SPAR-Bench", + "question": "The cabinet (red point) at a depth of 1.3 meters serves as a reference. How deep is the power socket (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003448/000.jpg", + "spar_bench/sample_003448/001.jpg", + "spar_bench/sample_003448/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3449, + "data_source": "SPAR-Bench", + "question": "The pillow (red point) at 2.1 meters serves as a depth marker. What is the depth of the curtain rod (blue point)? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003449/000.jpg", + "spar_bench/sample_003449/001.jpg", + "spar_bench/sample_003449/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3450, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system positions box (red point) at a depth of 2.4 meters. Predict the depth of paper stapler (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003450/000.jpg", + "spar_bench/sample_003450/001.jpg", + "spar_bench/sample_003450/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3451, + "data_source": "SPAR-Bench", + "question": "The cabinet (red point) is situated at 2.7 meters in the camera's Z-axis(camera coordinate system). What is the depth of the counter (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003451/000.jpg", + "spar_bench/sample_003451/001.jpg", + "spar_bench/sample_003451/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3452, + "data_source": "SPAR-Bench", + "question": "The picture (red point) at a depth of 1.6 meters serves as a reference. How deep is the power socket (blue point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003452/000.jpg", + "spar_bench/sample_003452/001.jpg", + "spar_bench/sample_003452/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3453, + "data_source": "SPAR-Bench", + "question": "The camera measures coffee maker (red point) at 1.4 meters depth. Predict the depth of the reflection (blue point) and Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003453/000.jpg", + "spar_bench/sample_003453/001.jpg", + "spar_bench/sample_003453/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3454, + "data_source": "SPAR-Bench", + "question": "The chair (red point) at 0.9 meters serves as a depth reference. What is the approximate depth of the poster (blue point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003454/000.jpg", + "spar_bench/sample_003454/001.jpg", + "spar_bench/sample_003454/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3455, + "data_source": "SPAR-Bench", + "question": "The water bubbler (red point) is 3.2 meters deep in the camera coordinate system. Predict the depth of the kitchen cabinet (blue point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003455/000.jpg", + "spar_bench/sample_003455/001.jpg", + "spar_bench/sample_003455/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3456, + "data_source": "SPAR-Bench", + "question": "The monitor (red point) lies at 2.0 meters depth. Predict the depth of the keyboard (blue point) and Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003456/000.jpg", + "spar_bench/sample_003456/001.jpg", + "spar_bench/sample_003456/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3457, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system specifies the kitchen cabinet (red point) depth as 1.0 meters. Estimate the depth of the kitchen cabinet (blue point) and . Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003457/000.jpg", + "spar_bench/sample_003457/001.jpg", + "spar_bench/sample_003457/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3458, + "data_source": "SPAR-Bench", + "question": "The table (red point) is situated at 3.5 meters in the camera's Z-axis(camera coordinate system). What is the depth of the curtain (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003458/000.jpg", + "spar_bench/sample_003458/001.jpg", + "spar_bench/sample_003458/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3459, + "data_source": "SPAR-Bench", + "question": "The ladder (red point) lies at 2.1 meters depth. Can you estimate the depth of whiteboard (blue point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003459/000.jpg", + "spar_bench/sample_003459/001.jpg", + "spar_bench/sample_003459/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3460, + "data_source": "SPAR-Bench", + "question": "At 5.7 meters, the monitor (red point) sets the depth reference. Calculate the depth of the printer (blue point) and Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003460/000.jpg", + "spar_bench/sample_003460/001.jpg", + "spar_bench/sample_003460/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3461, + "data_source": "SPAR-Bench", + "question": "With the keyboard (red point) at 0.9 meters, determine the depth of bucket (blue point). Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003461/000.jpg", + "spar_bench/sample_003461/001.jpg", + "spar_bench/sample_003461/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3462, + "data_source": "SPAR-Bench", + "question": "At a depth of 3.4 meters, the kettle (red point) serves as a reference. What is the depth of pan (blue point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003462/000.jpg", + "spar_bench/sample_003462/001.jpg", + "spar_bench/sample_003462/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3463, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system specifies the plate (red point) depth as 0.7 meters. Estimate the depth of the table (blue point) and . Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003463/000.jpg", + "spar_bench/sample_003463/001.jpg", + "spar_bench/sample_003463/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3464, + "data_source": "SPAR-Bench", + "question": "The split (red point) at a depth of 1.8 meters serves as a reference. How deep is the whiteboard (blue point)? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003464/000.jpg", + "spar_bench/sample_003464/001.jpg", + "spar_bench/sample_003464/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3465, + "data_source": "SPAR-Bench", + "question": "Knowing trash bin (red point) is at 2.1 meters, calculate the depth of power socket (blue point) and Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003465/000.jpg", + "spar_bench/sample_003465/001.jpg", + "spar_bench/sample_003465/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3466, + "data_source": "SPAR-Bench", + "question": "With the board (red point) center located at 2.3 meters in the camera Z-axis(camera coordinate system), determine the depth of pipe (blue point). Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003466/000.jpg", + "spar_bench/sample_003466/001.jpg", + "spar_bench/sample_003466/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3467, + "data_source": "SPAR-Bench", + "question": "If the cabinet (red point) is 3.7 meters deep, how deep is the silicon gun (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003467/000.jpg", + "spar_bench/sample_003467/001.jpg", + "spar_bench/sample_003467/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3468, + "data_source": "SPAR-Bench", + "question": "If the pillow (red point) lies at a depth of 0.8 meters, how deep is the center of the bedside lamp (blue point)? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003468/000.jpg", + "spar_bench/sample_003468/001.jpg", + "spar_bench/sample_003468/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3469, + "data_source": "SPAR-Bench", + "question": "The flush button (red point) lies at a depth of 1.5 meters. How deep is the center of toilet paper (blue point)? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003469/000.jpg", + "spar_bench/sample_003469/001.jpg", + "spar_bench/sample_003469/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3470, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system positions cabinet (red point) at a depth of 2.5 meters. Predict the depth of cabinet (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003470/000.jpg", + "spar_bench/sample_003470/001.jpg", + "spar_bench/sample_003470/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3471, + "data_source": "SPAR-Bench", + "question": "Knowing that bedside lamp (red point) is located at 2.0 meters, what is the depth of pillow (blue point)? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003471/000.jpg", + "spar_bench/sample_003471/001.jpg", + "spar_bench/sample_003471/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3472, + "data_source": "SPAR-Bench", + "question": "Based on the fact that the laptop (red point) has a depth of 0.7 meters, what is the depth of the pen holder (blue point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003472/000.jpg", + "spar_bench/sample_003472/001.jpg", + "spar_bench/sample_003472/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3473, + "data_source": "SPAR-Bench", + "question": "The depth of office chair (red point) is measured as 1.2 meters. Use this to find the depth of power socket (blue point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003473/000.jpg", + "spar_bench/sample_003473/001.jpg", + "spar_bench/sample_003473/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3474, + "data_source": "SPAR-Bench", + "question": "If the center of the sweater (red point) is 2.8 meters deep, what is the depth of bottle (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003474/000.jpg", + "spar_bench/sample_003474/001.jpg", + "spar_bench/sample_003474/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3475, + "data_source": "SPAR-Bench", + "question": "The window sill (red point) lies at 1.3 meters depth. Can you estimate the depth of monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003475/000.jpg", + "spar_bench/sample_003475/001.jpg", + "spar_bench/sample_003475/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3476, + "data_source": "SPAR-Bench", + "question": "The pen (red point) is located at a depth of 1.1 meters. Estimate the depth of the pen (blue point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003476/000.jpg", + "spar_bench/sample_003476/001.jpg", + "spar_bench/sample_003476/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3477, + "data_source": "SPAR-Bench", + "question": "Using oven (red point) at 5.6 meters as a guide, determine the depth of window (blue point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003477/000.jpg", + "spar_bench/sample_003477/001.jpg", + "spar_bench/sample_003477/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3478, + "data_source": "SPAR-Bench", + "question": "The book (red point) lies at 1.3 meters depth. Predict the depth of the book (blue point) and Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003478/000.jpg", + "spar_bench/sample_003478/001.jpg", + "spar_bench/sample_003478/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3479, + "data_source": "SPAR-Bench", + "question": "Given the window (red point) at 4.5 meters along the positive Z-axis(camera coordinate system), predict the depth of power strip (blue point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003479/000.jpg", + "spar_bench/sample_003479/001.jpg", + "spar_bench/sample_003479/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3480, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system positions spotlight (red point) at a depth of 6.2 meters. Predict the depth of fire extinguisher (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003480/000.jpg", + "spar_bench/sample_003480/001.jpg", + "spar_bench/sample_003480/002.jpg" + ], + "data_type": "multi_view", + "answer": "7.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3481, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system positions book (red point) at a depth of 1.7 meters. Predict the depth of book (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003481/000.jpg", + "spar_bench/sample_003481/001.jpg", + "spar_bench/sample_003481/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3482, + "data_source": "SPAR-Bench", + "question": "The shelf (red point) is located at 1.4 meters in depth. Based on this, calculate the depth of picture (blue point) and Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003482/000.jpg", + "spar_bench/sample_003482/001.jpg", + "spar_bench/sample_003482/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3483, + "data_source": "SPAR-Bench", + "question": "With cutting board (red point) at a depth of 0.9 meters, determine the approximate depth of counter (blue point). Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003483/000.jpg", + "spar_bench/sample_003483/001.jpg", + "spar_bench/sample_003483/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3484, + "data_source": "SPAR-Bench", + "question": "Knowing that the center of mouse (red point) is 1.6 meters deep, estimate the depth of box (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003484/000.jpg", + "spar_bench/sample_003484/001.jpg", + "spar_bench/sample_003484/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3485, + "data_source": "SPAR-Bench", + "question": "Knowing paper stapler (red point) is at 1.3 meters, calculate the depth of power socket (blue point) and Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003485/000.jpg", + "spar_bench/sample_003485/001.jpg", + "spar_bench/sample_003485/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3486, + "data_source": "SPAR-Bench", + "question": "If toilet flush button (red point) has a depth of 1.5 meters, how deep is the toilet paper holder (blue point)? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003486/000.jpg", + "spar_bench/sample_003486/001.jpg", + "spar_bench/sample_003486/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3487, + "data_source": "SPAR-Bench", + "question": "The trash bin (red point) is 1.5 meters deep in the camera coordinate system. Predict the depth of the bathtub (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003487/000.jpg", + "spar_bench/sample_003487/001.jpg", + "spar_bench/sample_003487/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3488, + "data_source": "SPAR-Bench", + "question": "If box (red point) has a depth of 2.1 meters, how deep is the table (blue point)? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003488/000.jpg", + "spar_bench/sample_003488/001.jpg", + "spar_bench/sample_003488/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3489, + "data_source": "SPAR-Bench", + "question": "The pipe (red point) at 4.5 meters serves as a depth marker. What is the depth of the cardbox (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003489/000.jpg", + "spar_bench/sample_003489/001.jpg", + "spar_bench/sample_003489/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3490, + "data_source": "SPAR-Bench", + "question": "Using the electrical duct (red point) depth of 0.1 meters, determine the depth of split (blue point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003490/000.jpg", + "spar_bench/sample_003490/001.jpg", + "spar_bench/sample_003490/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3491, + "data_source": "SPAR-Bench", + "question": "The depth of the pipe (red point) is recorded at 2.1 meters. Estimate the depth of pipe (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003491/000.jpg", + "spar_bench/sample_003491/001.jpg", + "spar_bench/sample_003491/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3492, + "data_source": "SPAR-Bench", + "question": "The notebook (red point) is placed at a depth of 1.1 meters along the Z-axis(camera coordinate system). Estimate the depth of window frame (blue point) and Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003492/000.jpg", + "spar_bench/sample_003492/001.jpg", + "spar_bench/sample_003492/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3493, + "data_source": "SPAR-Bench", + "question": "At 1.4 meters, the dishwashing sponge (red point) sets a depth reference. What is the approximate depth of the cutting board (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003493/000.jpg", + "spar_bench/sample_003493/001.jpg", + "spar_bench/sample_003493/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3494, + "data_source": "SPAR-Bench", + "question": "Knowing flush button (red point) is at 1.1 meters, calculate the depth of trash bin (blue point) and Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003494/000.jpg", + "spar_bench/sample_003494/001.jpg", + "spar_bench/sample_003494/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3495, + "data_source": "SPAR-Bench", + "question": "The depth of the machine (red point) at its center is measured as 2.7 meters. Estimate the depth of the table (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003495/000.jpg", + "spar_bench/sample_003495/001.jpg", + "spar_bench/sample_003495/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3496, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the cup (red point) at 1.1 meters depth. What is the depth of the office chair (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003496/000.jpg", + "spar_bench/sample_003496/001.jpg", + "spar_bench/sample_003496/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3497, + "data_source": "SPAR-Bench", + "question": "Using the power socket (red point) depth of 4.3 meters, determine the depth of window (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003497/000.jpg", + "spar_bench/sample_003497/001.jpg", + "spar_bench/sample_003497/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3498, + "data_source": "SPAR-Bench", + "question": "The depth of computer tower (red point) is measured as 3.0 meters. Use this to find the depth of multiplug (blue point). Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003498/000.jpg", + "spar_bench/sample_003498/001.jpg", + "spar_bench/sample_003498/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3499, + "data_source": "SPAR-Bench", + "question": "Given cushion (red point) is positioned at 7.2 meters, how deep is the cushion (blue point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003499/000.jpg", + "spar_bench/sample_003499/001.jpg", + "spar_bench/sample_003499/002.jpg" + ], + "data_type": "multi_view", + "answer": "7.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3500, + "data_source": "SPAR-Bench", + "question": "Given the box (red point) is located at a depth of 2.9 meters in the Z-axis of the camera coordinate system, how far in depth is the clothes (blue point) at its center? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003500/000.jpg", + "spar_bench/sample_003500/001.jpg", + "spar_bench/sample_003500/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3501, + "data_source": "SPAR-Bench", + "question": "The box (red point) lies at 1.0 meters depth. Predict the depth of the box (blue point) and Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003501/000.jpg", + "spar_bench/sample_003501/001.jpg", + "spar_bench/sample_003501/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3502, + "data_source": "SPAR-Bench", + "question": "The sink counter (red point) lies at a depth of 0.9 meters. How deep is the center of trash bin (blue point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003502/000.jpg", + "spar_bench/sample_003502/001.jpg", + "spar_bench/sample_003502/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3503, + "data_source": "SPAR-Bench", + "question": "The kitchen utensil (red point) at 2.4 meters serves as a depth marker. What is the depth of the bottle (blue point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003503/000.jpg", + "spar_bench/sample_003503/001.jpg", + "spar_bench/sample_003503/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3504, + "data_source": "SPAR-Bench", + "question": "The depth of window (red point) is measured as 5.0 meters. Use this to find the depth of cabinet (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003504/000.jpg", + "spar_bench/sample_003504/001.jpg", + "spar_bench/sample_003504/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3505, + "data_source": "SPAR-Bench", + "question": "The depth of trash bin (red point) is measured as 1.4 meters. Use this to find the depth of stove (blue point). Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003505/000.jpg", + "spar_bench/sample_003505/001.jpg", + "spar_bench/sample_003505/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3506, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system positions shower faucet (red point) at a depth of 0.8 meters. Predict the depth of shower gel (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003506/000.jpg", + "spar_bench/sample_003506/001.jpg", + "spar_bench/sample_003506/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3507, + "data_source": "SPAR-Bench", + "question": "At 1.4 meters, the bottle (red point) sets the depth reference. Calculate the depth of the hairdryer (blue point) and Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003507/000.jpg", + "spar_bench/sample_003507/001.jpg", + "spar_bench/sample_003507/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3508, + "data_source": "SPAR-Bench", + "question": "If picture (red point) has a depth of 2.8 meters, how deep is the trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003508/000.jpg", + "spar_bench/sample_003508/001.jpg", + "spar_bench/sample_003508/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3509, + "data_source": "SPAR-Bench", + "question": "Given the bench (red point) at 3.7 meters along the positive Z-axis(camera coordinate system), predict the depth of beanbag (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003509/000.jpg", + "spar_bench/sample_003509/001.jpg", + "spar_bench/sample_003509/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3510, + "data_source": "SPAR-Bench", + "question": "The box (red point) is located at a depth of 3.4 meters. What is the depth of the monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003510/000.jpg", + "spar_bench/sample_003510/001.jpg", + "spar_bench/sample_003510/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3511, + "data_source": "SPAR-Bench", + "question": "The depth of the shaving foam (red point) at its center is measured as 0.7 meters. Estimate the depth of the towel (blue point) at its center. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003511/000.jpg", + "spar_bench/sample_003511/001.jpg", + "spar_bench/sample_003511/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3512, + "data_source": "SPAR-Bench", + "question": "With the window (red point) depth measured at 2.0 meters, determine the depth of monitor (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003512/000.jpg", + "spar_bench/sample_003512/001.jpg", + "spar_bench/sample_003512/002.jpg" + ], + "data_type": "multi_view", + "answer": "7.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3513, + "data_source": "SPAR-Bench", + "question": "With trash bin (red point) at 1.8 meters, calculate the depth of toilet paper (blue point). Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003513/000.jpg", + "spar_bench/sample_003513/001.jpg", + "spar_bench/sample_003513/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3514, + "data_source": "SPAR-Bench", + "question": "With the paper (red point) depth measured at 3.1 meters, determine the depth of window (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003514/000.jpg", + "spar_bench/sample_003514/001.jpg", + "spar_bench/sample_003514/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3515, + "data_source": "SPAR-Bench", + "question": "With blackboard (red point) at 4.6 meters, calculate the depth of blackboard frame (blue point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003515/000.jpg", + "spar_bench/sample_003515/001.jpg", + "spar_bench/sample_003515/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3516, + "data_source": "SPAR-Bench", + "question": "The power socket (red point) at 7.1 meters serves as a depth reference. What is the approximate depth of the table (blue point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003516/000.jpg", + "spar_bench/sample_003516/001.jpg", + "spar_bench/sample_003516/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3517, + "data_source": "SPAR-Bench", + "question": "With the switch (red point) depth measured at 2.6 meters, determine the depth of machine (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003517/000.jpg", + "spar_bench/sample_003517/001.jpg", + "spar_bench/sample_003517/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3518, + "data_source": "SPAR-Bench", + "question": "The center of the trash bin (red point) is positioned at 1.5 meters. Based on this, predict the depth of the center of the plate (blue point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003518/000.jpg", + "spar_bench/sample_003518/001.jpg", + "spar_bench/sample_003518/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3519, + "data_source": "SPAR-Bench", + "question": "Using mouse pad (red point) as a reference with its center at 0.8 meters depth, calculate the depth of picture (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003519/000.jpg", + "spar_bench/sample_003519/001.jpg", + "spar_bench/sample_003519/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3520, + "data_source": "SPAR-Bench", + "question": "Given that soap dispenser (red point) is at 1.0 meters, predict the depth of wok pan (blue point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003520/000.jpg", + "spar_bench/sample_003520/001.jpg", + "spar_bench/sample_003520/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3521, + "data_source": "SPAR-Bench", + "question": "At 2.1 meters, the instant pot (red point) sets the depth reference. Calculate the depth of the kitchen utensil (blue point) and Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003521/000.jpg", + "spar_bench/sample_003521/001.jpg", + "spar_bench/sample_003521/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3522, + "data_source": "SPAR-Bench", + "question": "With the pipe (red point) at 4.5 meters, determine the depth of pipe (blue point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003522/000.jpg", + "spar_bench/sample_003522/001.jpg", + "spar_bench/sample_003522/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3523, + "data_source": "SPAR-Bench", + "question": "At 1.9 meters, the blanket (red point) sets a depth reference. What is the approximate depth of the jacket (blue point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003523/000.jpg", + "spar_bench/sample_003523/001.jpg", + "spar_bench/sample_003523/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3524, + "data_source": "SPAR-Bench", + "question": "The depth of the umbrella (red point) is given as 0.9 meters. Use this to estimate the depth of SPLIT (blue point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003524/000.jpg", + "spar_bench/sample_003524/001.jpg", + "spar_bench/sample_003524/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3525, + "data_source": "SPAR-Bench", + "question": "At a depth of 4.5 meters, the power socket (red point) serves as a reference. What is the depth of chair (blue point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003525/000.jpg", + "spar_bench/sample_003525/001.jpg", + "spar_bench/sample_003525/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3526, + "data_source": "SPAR-Bench", + "question": "The box (red point) at a depth of 2.3 meters serves as a reference. How deep is the box (blue point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003526/000.jpg", + "spar_bench/sample_003526/001.jpg", + "spar_bench/sample_003526/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3527, + "data_source": "SPAR-Bench", + "question": "The power socket (red point) at 3.0 meters serves as a depth marker. What is the depth of the cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003527/000.jpg", + "spar_bench/sample_003527/001.jpg", + "spar_bench/sample_003527/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3528, + "data_source": "SPAR-Bench", + "question": "The chessboard (red point) is located at 3.8 meters in depth. Based on this, calculate the depth of cushion (blue point) and Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003528/000.jpg", + "spar_bench/sample_003528/001.jpg", + "spar_bench/sample_003528/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3529, + "data_source": "SPAR-Bench", + "question": "The pipe (red point) at a depth of 2.8 meters serves as a reference. How deep is the cardbox (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003529/000.jpg", + "spar_bench/sample_003529/001.jpg", + "spar_bench/sample_003529/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3530, + "data_source": "SPAR-Bench", + "question": "Using fruit (red point) as a reference with its center at 1.6 meters depth, calculate the depth of keyboard (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003530/000.jpg", + "spar_bench/sample_003530/001.jpg", + "spar_bench/sample_003530/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3531, + "data_source": "SPAR-Bench", + "question": "The cheese (red point) is situated at 1.0 meters in the camera's Z-axis(camera coordinate system). What is the depth of the kitchen counter (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003531/000.jpg", + "spar_bench/sample_003531/001.jpg", + "spar_bench/sample_003531/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3532, + "data_source": "SPAR-Bench", + "question": "The chair (red point) lies at a depth of 1.6 meters. How deep is the center of table (blue point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003532/000.jpg", + "spar_bench/sample_003532/001.jpg", + "spar_bench/sample_003532/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3533, + "data_source": "SPAR-Bench", + "question": "At 2.9 meters, the power strip (red point) sets a depth reference. What is the approximate depth of the windowsill (blue point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003533/000.jpg", + "spar_bench/sample_003533/001.jpg", + "spar_bench/sample_003533/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3534, + "data_source": "SPAR-Bench", + "question": "If the center of the laboratory cabinet (red point) is 2.8 meters deep, what is the depth of power socket (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003534/000.jpg", + "spar_bench/sample_003534/001.jpg", + "spar_bench/sample_003534/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3535, + "data_source": "SPAR-Bench", + "question": "The toilet paper (red point) is located at a depth of 1.2 meters. Estimate the depth of the toilet (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003535/000.jpg", + "spar_bench/sample_003535/001.jpg", + "spar_bench/sample_003535/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3536, + "data_source": "SPAR-Bench", + "question": "With the toilet paper dispenser (red point) at 1.1 meters, determine the depth of flush button (blue point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003536/000.jpg", + "spar_bench/sample_003536/001.jpg", + "spar_bench/sample_003536/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3537, + "data_source": "SPAR-Bench", + "question": "The depth of table (red point) is measured as 1.9 meters. Use this to find the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003537/000.jpg", + "spar_bench/sample_003537/001.jpg", + "spar_bench/sample_003537/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3538, + "data_source": "SPAR-Bench", + "question": "With the power socket (red point) having a depth of 1.6 meters, determine the depth of crate (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003538/000.jpg", + "spar_bench/sample_003538/001.jpg", + "spar_bench/sample_003538/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3539, + "data_source": "SPAR-Bench", + "question": "The center of the cardboard (red point) is positioned at 4.1 meters. Based on this, predict the depth of the center of the pipe (blue point). Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003539/000.jpg", + "spar_bench/sample_003539/001.jpg", + "spar_bench/sample_003539/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3540, + "data_source": "SPAR-Bench", + "question": "Knowing printer paper (red point) is at 0.9 meters, calculate the depth of power strip (blue point) and Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003540/000.jpg", + "spar_bench/sample_003540/001.jpg", + "spar_bench/sample_003540/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3541, + "data_source": "SPAR-Bench", + "question": "Knowing stapler (red point) is at 0.8 meters, calculate the depth of cable duct (blue point) and Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003541/000.jpg", + "spar_bench/sample_003541/001.jpg", + "spar_bench/sample_003541/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3542, + "data_source": "SPAR-Bench", + "question": "The office chair (red point) is positioned at 1.9 meters depth. Predict the depth of the table (blue point) and Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003542/000.jpg", + "spar_bench/sample_003542/001.jpg", + "spar_bench/sample_003542/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3543, + "data_source": "SPAR-Bench", + "question": "The book (red point) lies at a depth of 2.4 meters. How deep is the center of bed (blue point)? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003543/000.jpg", + "spar_bench/sample_003543/001.jpg", + "spar_bench/sample_003543/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3544, + "data_source": "SPAR-Bench", + "question": "If structure (red point) has a depth of 5.0 meters, how deep is the box (blue point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003544/000.jpg", + "spar_bench/sample_003544/001.jpg", + "spar_bench/sample_003544/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3545, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of backpack (red point) at 2.3 meters, calculate the depth of light switch (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003545/000.jpg", + "spar_bench/sample_003545/001.jpg", + "spar_bench/sample_003545/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3546, + "data_source": "SPAR-Bench", + "question": "With the pillow (red point) having a depth of 2.6 meters, determine the depth of carpet (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003546/000.jpg", + "spar_bench/sample_003546/001.jpg", + "spar_bench/sample_003546/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3547, + "data_source": "SPAR-Bench", + "question": "Using the box (red point) depth of 2.3 meters, determine the depth of paper (blue point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003547/000.jpg", + "spar_bench/sample_003547/001.jpg", + "spar_bench/sample_003547/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3548, + "data_source": "SPAR-Bench", + "question": "Given that plant (red point) is at 0.8 meters, predict the depth of paper (blue point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003548/000.jpg", + "spar_bench/sample_003548/001.jpg", + "spar_bench/sample_003548/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3549, + "data_source": "SPAR-Bench", + "question": "The depth of jar (red point) is 2.7 meters. Based on this, what is the approximate depth of towel (blue point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003549/000.jpg", + "spar_bench/sample_003549/001.jpg", + "spar_bench/sample_003549/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3550, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of paper (red point) at 3.1 meters, calculate the depth of plant (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003550/000.jpg", + "spar_bench/sample_003550/001.jpg", + "spar_bench/sample_003550/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3551, + "data_source": "SPAR-Bench", + "question": "If the structure (red point) is 3.7 meters deep, how deep is the box (blue point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003551/000.jpg", + "spar_bench/sample_003551/001.jpg", + "spar_bench/sample_003551/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3552, + "data_source": "SPAR-Bench", + "question": "The depth of machine (red point) is 1.3 meters. Based on this, what is the approximate depth of structure (blue point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003552/000.jpg", + "spar_bench/sample_003552/001.jpg", + "spar_bench/sample_003552/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3553, + "data_source": "SPAR-Bench", + "question": "The camera coordinates show the trash bin (red point) at 4.3 meters depth. What is the depth of the table (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003553/000.jpg", + "spar_bench/sample_003553/001.jpg", + "spar_bench/sample_003553/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3554, + "data_source": "SPAR-Bench", + "question": "Given the pipe (red point) is located at a depth of 3.2 meters in the Z-axis of the camera coordinate system, how far in depth is the cardbox (blue point) at its center? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003554/000.jpg", + "spar_bench/sample_003554/001.jpg", + "spar_bench/sample_003554/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3555, + "data_source": "SPAR-Bench", + "question": "Given that table (red point) is at 1.2 meters, predict the depth of blinds (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003555/000.jpg", + "spar_bench/sample_003555/001.jpg", + "spar_bench/sample_003555/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3556, + "data_source": "SPAR-Bench", + "question": "Given the table (red point) is located at a depth of 1.7 meters in the Z-axis of the camera coordinate system, how far in depth is the headset (blue point) at its center? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003556/000.jpg", + "spar_bench/sample_003556/001.jpg", + "spar_bench/sample_003556/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3557, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 1.6 meters. Based on this, what is the approximate depth of split (blue point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003557/000.jpg", + "spar_bench/sample_003557/001.jpg", + "spar_bench/sample_003557/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3558, + "data_source": "SPAR-Bench", + "question": "The washing machine (red point) at 1.0 meters serves as a depth reference. What is the approximate depth of the bathroom cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003558/000.jpg", + "spar_bench/sample_003558/001.jpg", + "spar_bench/sample_003558/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3559, + "data_source": "SPAR-Bench", + "question": "The depth of the picture (red point) is recorded at 1.8 meters. Estimate the depth of bedside table (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003559/000.jpg", + "spar_bench/sample_003559/001.jpg", + "spar_bench/sample_003559/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3560, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system specifies the chair (red point) depth as 1.3 meters. Estimate the depth of the whiteboard (blue point) and . Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003560/000.jpg", + "spar_bench/sample_003560/001.jpg", + "spar_bench/sample_003560/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3561, + "data_source": "SPAR-Bench", + "question": "The camera measures book (red point) at 1.3 meters depth. Predict the depth of the books (blue point) and Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003561/000.jpg", + "spar_bench/sample_003561/001.jpg", + "spar_bench/sample_003561/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3562, + "data_source": "SPAR-Bench", + "question": "Based on the fact that the mug (red point) has a depth of 2.7 meters, what is the depth of the paper (blue point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003562/000.jpg", + "spar_bench/sample_003562/001.jpg", + "spar_bench/sample_003562/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3563, + "data_source": "SPAR-Bench", + "question": "The depth of office chair (red point) is measured as 2.0 meters. Use this to find the depth of table (blue point). Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003563/000.jpg", + "spar_bench/sample_003563/001.jpg", + "spar_bench/sample_003563/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3564, + "data_source": "SPAR-Bench", + "question": "The depth of the water kettle (red point) is recorded at 1.8 meters. Estimate the depth of kitchen counter (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003564/000.jpg", + "spar_bench/sample_003564/001.jpg", + "spar_bench/sample_003564/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3565, + "data_source": "SPAR-Bench", + "question": "If the shelf (red point) is positioned at 1.4 meters, estimate the depth of the keyboard (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003565/000.jpg", + "spar_bench/sample_003565/001.jpg", + "spar_bench/sample_003565/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3566, + "data_source": "SPAR-Bench", + "question": "The towels (red point) is positioned at 1.3 meters depth. Predict the depth of the bathroom counter (blue point) and Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003566/000.jpg", + "spar_bench/sample_003566/001.jpg", + "spar_bench/sample_003566/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3567, + "data_source": "SPAR-Bench", + "question": "The blinds (red point) at a depth of 3.2 meters serves as a reference. How deep is the plushie (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003567/000.jpg", + "spar_bench/sample_003567/001.jpg", + "spar_bench/sample_003567/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3568, + "data_source": "SPAR-Bench", + "question": "Knowing that the center of toilet brush (red point) is 1.9 meters deep, estimate the depth of trash bin (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003568/000.jpg", + "spar_bench/sample_003568/001.jpg", + "spar_bench/sample_003568/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3569, + "data_source": "SPAR-Bench", + "question": "With the chair (red point) at 2.7 meters, determine the depth of chair (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003569/000.jpg", + "spar_bench/sample_003569/001.jpg", + "spar_bench/sample_003569/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3570, + "data_source": "SPAR-Bench", + "question": "The depth of the table (red point) at its center is measured as 1.3 meters. Estimate the depth of the headset (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003570/000.jpg", + "spar_bench/sample_003570/001.jpg", + "spar_bench/sample_003570/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3571, + "data_source": "SPAR-Bench", + "question": "The spray bottle (red point) is positioned at 4.5 meters depth. Predict the depth of the cabinet (blue point) and Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003571/000.jpg", + "spar_bench/sample_003571/001.jpg", + "spar_bench/sample_003571/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3572, + "data_source": "SPAR-Bench", + "question": "If the center of the copier (red point) is 1.0 meters deep, what is the depth of board (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003572/000.jpg", + "spar_bench/sample_003572/001.jpg", + "spar_bench/sample_003572/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3573, + "data_source": "SPAR-Bench", + "question": "With the phone (red point) having a depth of 2.6 meters, determine the depth of monitor (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003573/000.jpg", + "spar_bench/sample_003573/001.jpg", + "spar_bench/sample_003573/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3574, + "data_source": "SPAR-Bench", + "question": "If trash bin (red point) has a depth of 1.0 meters, how deep is the flush button (blue point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003574/000.jpg", + "spar_bench/sample_003574/001.jpg", + "spar_bench/sample_003574/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3575, + "data_source": "SPAR-Bench", + "question": "Based on the reference depth of kitchen counter (red point) at 0.0 meters, calculate the depth of kettle (blue point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003575/000.jpg", + "spar_bench/sample_003575/001.jpg", + "spar_bench/sample_003575/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3576, + "data_source": "SPAR-Bench", + "question": "The chair (red point) is located at a depth of 2.3 meters. Estimate the depth of the power strip (blue point). Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003576/000.jpg", + "spar_bench/sample_003576/001.jpg", + "spar_bench/sample_003576/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3577, + "data_source": "SPAR-Bench", + "question": "Given shelf (red point) is positioned at 2.9 meters, how deep is the table (blue point)? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003577/000.jpg", + "spar_bench/sample_003577/001.jpg", + "spar_bench/sample_003577/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3578, + "data_source": "SPAR-Bench", + "question": "The depth of pc (red point) is 3.6 meters. Based on this, what is the approximate depth of bedframe (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003578/000.jpg", + "spar_bench/sample_003578/001.jpg", + "spar_bench/sample_003578/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3579, + "data_source": "SPAR-Bench", + "question": "With pipe (red point) at a depth of 1.6 meters, determine the approximate depth of wooden plank (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003579/000.jpg", + "spar_bench/sample_003579/001.jpg", + "spar_bench/sample_003579/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3580, + "data_source": "SPAR-Bench", + "question": "The depth of the window frame (red point) is recorded at 4.0 meters. Estimate the depth of computer tower (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003580/000.jpg", + "spar_bench/sample_003580/001.jpg", + "spar_bench/sample_003580/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3581, + "data_source": "SPAR-Bench", + "question": "The camera coordinate system positions power socket (red point) at a depth of 0.6 meters. Predict the depth of jacket (blue point) at its center. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003581/000.jpg", + "spar_bench/sample_003581/001.jpg", + "spar_bench/sample_003581/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3582, + "data_source": "SPAR-Bench", + "question": "With the monitor (red point) having a depth of 1.5 meters, determine the depth of monitor (blue point) in the same frame. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003582/000.jpg", + "spar_bench/sample_003582/001.jpg", + "spar_bench/sample_003582/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3583, + "data_source": "SPAR-Bench", + "question": "Assume monitor (red point) has a depth of 1.9. How much difference in depth exists between monitor (green point) and chair (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003583/000.jpg", + "spar_bench/sample_003583/001.jpg", + "spar_bench/sample_003583/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3584, + "data_source": "SPAR-Bench", + "question": "The depth of telephone (red point) is 2.5. How far apart in depth are desk (green point) and keyboard (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003584/000.jpg", + "spar_bench/sample_003584/001.jpg", + "spar_bench/sample_003584/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3585, + "data_source": "SPAR-Bench", + "question": "Given that the depth of backpack (red point) is 1.4, find the depth difference (absolute value) between chair (green point) and monitor (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003585/000.jpg", + "spar_bench/sample_003585/001.jpg", + "spar_bench/sample_003585/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3586, + "data_source": "SPAR-Bench", + "question": "If the depth of bookshelf (red point) is 1.9, determine the absolute depth difference between jacket (green point) and books (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003586/000.jpg", + "spar_bench/sample_003586/001.jpg", + "spar_bench/sample_003586/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3587, + "data_source": "SPAR-Bench", + "question": "Assume cabinet (red point) has a depth of 2.1. How much difference in depth exists between printer (green point) and trash can (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003587/000.jpg", + "spar_bench/sample_003587/001.jpg", + "spar_bench/sample_003587/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3588, + "data_source": "SPAR-Bench", + "question": "With couch (red point) at a depth of 2.5, calculate the depth difference (absolute value) between ottoman (green point) and end table (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003588/000.jpg", + "spar_bench/sample_003588/001.jpg", + "spar_bench/sample_003588/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3589, + "data_source": "SPAR-Bench", + "question": "If soap dispenser (red point) is at a depth of 1.8, compute the depth difference between plant (green point) and paper towel dispenser (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003589/000.jpg", + "spar_bench/sample_003589/001.jpg", + "spar_bench/sample_003589/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3590, + "data_source": "SPAR-Bench", + "question": "Assume closet (red point) has a depth of 3.8. How much difference in depth exists between lamp (green point) and tissue box (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003590/000.jpg", + "spar_bench/sample_003590/001.jpg", + "spar_bench/sample_003590/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3591, + "data_source": "SPAR-Bench", + "question": "The depth of books (red point) is 1.0. Determine the absolute depth difference between books (green point) and books (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003591/000.jpg", + "spar_bench/sample_003591/001.jpg", + "spar_bench/sample_003591/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3592, + "data_source": "SPAR-Bench", + "question": "With toilet paper (red point) at a depth of 1.3, calculate the depth difference (in meters) between toilet (green point) and shelf (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003592/000.jpg", + "spar_bench/sample_003592/001.jpg", + "spar_bench/sample_003592/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3593, + "data_source": "SPAR-Bench", + "question": "Given that rail (red point) has a depth of 1.6, determine the absolute depth difference between rail (green point) and mirror (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003593/000.jpg", + "spar_bench/sample_003593/001.jpg", + "spar_bench/sample_003593/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3594, + "data_source": "SPAR-Bench", + "question": "If mat (red point) has a depth of 2.8, calculate the difference in depth between toilet (green point) and sink (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003594/000.jpg", + "spar_bench/sample_003594/001.jpg", + "spar_bench/sample_003594/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3595, + "data_source": "SPAR-Bench", + "question": "The known depth of rail (red point) is 1.5. What is the absolute depth difference between the objects rail (green point) and toilet (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003595/000.jpg", + "spar_bench/sample_003595/001.jpg", + "spar_bench/sample_003595/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3596, + "data_source": "SPAR-Bench", + "question": "Using the depth of armchair (red point) as 2.2, find the absolute difference in depth between armchair (green point) and armchair (blue point). State the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003596/000.jpg", + "spar_bench/sample_003596/001.jpg", + "spar_bench/sample_003596/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3597, + "data_source": "SPAR-Bench", + "question": "Assume the depth of towel (red point) is 1.4. How much difference in depth is there between toilet (green point) and towel (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003597/000.jpg", + "spar_bench/sample_003597/001.jpg", + "spar_bench/sample_003597/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3598, + "data_source": "SPAR-Bench", + "question": "Assume the depth of wood (red point) is 2.4. How much difference in depth is there between radiator (green point) and wood (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003598/000.jpg", + "spar_bench/sample_003598/001.jpg", + "spar_bench/sample_003598/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3599, + "data_source": "SPAR-Bench", + "question": "The depth of stair rail (red point) is 1.5. Use this reference to find the absolute depth difference between box (green point) and box (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003599/000.jpg", + "spar_bench/sample_003599/001.jpg", + "spar_bench/sample_003599/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3600, + "data_source": "SPAR-Bench", + "question": "The depth of wood beam (red point) is 1.4. Use this reference to find the absolute depth difference between mattress (green point) and radiator (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003600/000.jpg", + "spar_bench/sample_003600/001.jpg", + "spar_bench/sample_003600/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3601, + "data_source": "SPAR-Bench", + "question": "Assume shelf (red point) has a depth of 2.4. How far apart in depth are desk (green point) and pillow (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003601/000.jpg", + "spar_bench/sample_003601/001.jpg", + "spar_bench/sample_003601/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3602, + "data_source": "SPAR-Bench", + "question": "Assume picture (red point) has a depth of 2.7. How much difference in depth exists between stair rail (green point) and stair rail (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003602/000.jpg", + "spar_bench/sample_003602/001.jpg", + "spar_bench/sample_003602/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3603, + "data_source": "SPAR-Bench", + "question": "Using stool (red point) with a known depth of 3.7, calculate the absolute value of the depth difference between table (green point) and tv (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003603/000.jpg", + "spar_bench/sample_003603/001.jpg", + "spar_bench/sample_003603/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3604, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is 2.4, calculate the absolute depth difference in meters between chair (green point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003604/000.jpg", + "spar_bench/sample_003604/001.jpg", + "spar_bench/sample_003604/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3605, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between toilet paper (green point) and trash can (blue point), given that telephone (red point) is at a depth of 0.7? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003605/000.jpg", + "spar_bench/sample_003605/001.jpg", + "spar_bench/sample_003605/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3606, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between chair (green point) and chair (blue point), given that chair (red point) is at a depth of 0.8? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003606/000.jpg", + "spar_bench/sample_003606/001.jpg", + "spar_bench/sample_003606/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3607, + "data_source": "SPAR-Bench", + "question": "The depth of scale (red point) is given as 1.3. Calculate how far apart in depth towel (green point) and shower curtain (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003607/000.jpg", + "spar_bench/sample_003607/001.jpg", + "spar_bench/sample_003607/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3608, + "data_source": "SPAR-Bench", + "question": "Assume the depth of ledge (red point) is 1.4. How much deeper or shallower is toilet (green point) relative to mirror (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003608/000.jpg", + "spar_bench/sample_003608/001.jpg", + "spar_bench/sample_003608/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3609, + "data_source": "SPAR-Bench", + "question": "Given that armchair (red point) is at a depth of 2.7, calculate the absolute depth difference between couch (green point) and coffee table (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003609/000.jpg", + "spar_bench/sample_003609/001.jpg", + "spar_bench/sample_003609/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3610, + "data_source": "SPAR-Bench", + "question": "Using trash can (red point) as a reference with a depth of 2.0, determine how far apart in depth vending machine (green point) and washing machines (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003610/000.jpg", + "spar_bench/sample_003610/001.jpg", + "spar_bench/sample_003610/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3611, + "data_source": "SPAR-Bench", + "question": "The known depth of bag (red point) is 1.2. Calculate how much difference in depth there is between desk (green point) and shoes (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003611/000.jpg", + "spar_bench/sample_003611/001.jpg", + "spar_bench/sample_003611/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3612, + "data_source": "SPAR-Bench", + "question": "If the depth of couch (red point) is 2.0, determine the absolute depth difference between book (green point) and armchair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003612/000.jpg", + "spar_bench/sample_003612/001.jpg", + "spar_bench/sample_003612/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3613, + "data_source": "SPAR-Bench", + "question": "Using the depth of soap dish (red point) as 1.4, find the absolute difference in depth between rail (green point) and shower faucet handle (blue point). State the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003613/000.jpg", + "spar_bench/sample_003613/001.jpg", + "spar_bench/sample_003613/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3614, + "data_source": "SPAR-Bench", + "question": "With office chair (red point) at a depth of 2.6, calculate the depth difference (absolute value) between office chair (green point) and office chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003614/000.jpg", + "spar_bench/sample_003614/001.jpg", + "spar_bench/sample_003614/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3615, + "data_source": "SPAR-Bench", + "question": "Using armchair (red point) as a reference with a depth of 2.0, determine how far apart in depth ottoman (green point) and table (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003615/000.jpg", + "spar_bench/sample_003615/001.jpg", + "spar_bench/sample_003615/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3616, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 1.8. How far apart in depth are microwave (green point) and table (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003616/000.jpg", + "spar_bench/sample_003616/001.jpg", + "spar_bench/sample_003616/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3617, + "data_source": "SPAR-Bench", + "question": "Using the depth of window (red point) as 3.6, find the absolute difference in depth between monitor (green point) and monitor (blue point). State the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003617/000.jpg", + "spar_bench/sample_003617/001.jpg", + "spar_bench/sample_003617/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3618, + "data_source": "SPAR-Bench", + "question": "Using the depth of monitor (red point) as 1.6, determine the absolute difference in depth between desk (green point) and picture (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003618/000.jpg", + "spar_bench/sample_003618/001.jpg", + "spar_bench/sample_003618/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3619, + "data_source": "SPAR-Bench", + "question": "The depth of trash can (red point) is given as 1.5. Calculate how far apart in depth cup (green point) and washcloth (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003619/000.jpg", + "spar_bench/sample_003619/001.jpg", + "spar_bench/sample_003619/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3620, + "data_source": "SPAR-Bench", + "question": "The depth of computer tower (red point) is 2.1. How far apart in depth are desk (green point) and chair (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003620/000.jpg", + "spar_bench/sample_003620/001.jpg", + "spar_bench/sample_003620/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3621, + "data_source": "SPAR-Bench", + "question": "The known depth of end table (red point) is 2.0. What is the absolute depth difference between the objects armchair (green point) and armchair (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003621/000.jpg", + "spar_bench/sample_003621/001.jpg", + "spar_bench/sample_003621/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3622, + "data_source": "SPAR-Bench", + "question": "Given that box (red point) has a depth of 2.7, determine the absolute depth difference between desk (green point) and laptop (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003622/000.jpg", + "spar_bench/sample_003622/001.jpg", + "spar_bench/sample_003622/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3623, + "data_source": "SPAR-Bench", + "question": "With chair (red point) at a depth of 3.2, calculate the depth difference (in meters) between monitor (green point) and mouse (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003623/000.jpg", + "spar_bench/sample_003623/001.jpg", + "spar_bench/sample_003623/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3624, + "data_source": "SPAR-Bench", + "question": "Using sink (red point) with a depth of 1.6, compute the absolute depth difference in meters between kitchen cabinets (green point) and kitchen cabinet (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003624/000.jpg", + "spar_bench/sample_003624/001.jpg", + "spar_bench/sample_003624/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3625, + "data_source": "SPAR-Bench", + "question": "With desk (red point) at a known depth of 1.4, what is the absolute depth difference between office chair (green point) and bed (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003625/000.jpg", + "spar_bench/sample_003625/001.jpg", + "spar_bench/sample_003625/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3626, + "data_source": "SPAR-Bench", + "question": "If the depth of kitchen cabinet (red point) is set at 1.6, how far apart in depth are objects refrigerator (green point) and kitchen cabinets (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003626/000.jpg", + "spar_bench/sample_003626/001.jpg", + "spar_bench/sample_003626/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3627, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is given as 1.7, how far apart in depth are water fountain (green point) and water fountain (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003627/000.jpg", + "spar_bench/sample_003627/001.jpg", + "spar_bench/sample_003627/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3628, + "data_source": "SPAR-Bench", + "question": "Using toilet paper dispenser (red point) with a known depth of 1.7, calculate the absolute value of the depth difference between toilet (green point) and bar (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003628/000.jpg", + "spar_bench/sample_003628/001.jpg", + "spar_bench/sample_003628/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3629, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is given as 1.6, how far apart in depth are table (green point) and chair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003629/000.jpg", + "spar_bench/sample_003629/001.jpg", + "spar_bench/sample_003629/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3630, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 2.4. Determine the absolute depth difference between table (green point) and chair (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003630/000.jpg", + "spar_bench/sample_003630/001.jpg", + "spar_bench/sample_003630/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3631, + "data_source": "SPAR-Bench", + "question": "The depth of window (red point) is 3.5. Using this as a reference, find the depth difference between plant (green point) and desk (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003631/000.jpg", + "spar_bench/sample_003631/001.jpg", + "spar_bench/sample_003631/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3632, + "data_source": "SPAR-Bench", + "question": "Using books (red point) as a reference with a depth of 3.8, determine how far apart in depth couch (green point) and books (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003632/000.jpg", + "spar_bench/sample_003632/001.jpg", + "spar_bench/sample_003632/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3633, + "data_source": "SPAR-Bench", + "question": "Assume towel (red point) has a depth of 1.6. How far apart in depth are bathroom vanity (green point) and cabinet (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003633/000.jpg", + "spar_bench/sample_003633/001.jpg", + "spar_bench/sample_003633/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3634, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of desk (red point) is 1.8, how much difference in depth is there between bed (green point) and office chair (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003634/000.jpg", + "spar_bench/sample_003634/001.jpg", + "spar_bench/sample_003634/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3635, + "data_source": "SPAR-Bench", + "question": "The depth of office chair (red point) is known to be 2.7. Calculate the absolute value of the depth difference in meters between office chair (green point) and office chair (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003635/000.jpg", + "spar_bench/sample_003635/001.jpg", + "spar_bench/sample_003635/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3636, + "data_source": "SPAR-Bench", + "question": "Using towel (red point) with a depth of 1.1, compute the absolute depth difference between shower walls (green point) and toilet (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003636/000.jpg", + "spar_bench/sample_003636/001.jpg", + "spar_bench/sample_003636/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3637, + "data_source": "SPAR-Bench", + "question": "If the depth of paper towel dispenser (red point) is known to be 1.7, calculate the depth difference between kitchen cabinets (green point) and kitchen counter (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003637/000.jpg", + "spar_bench/sample_003637/001.jpg", + "spar_bench/sample_003637/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3638, + "data_source": "SPAR-Bench", + "question": "The known depth of chair (red point) is 2.7. Calculate how much difference in depth there is between chair (green point) and chair (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003638/000.jpg", + "spar_bench/sample_003638/001.jpg", + "spar_bench/sample_003638/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3639, + "data_source": "SPAR-Bench", + "question": "Assume the depth of cabinet (red point) is 2.7. What is the depth difference between curtain (green point) and curtain (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003639/000.jpg", + "spar_bench/sample_003639/001.jpg", + "spar_bench/sample_003639/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3640, + "data_source": "SPAR-Bench", + "question": "If jacket (red point) is at a depth of 2.0, what is the depth difference between chair (green point) and box (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003640/000.jpg", + "spar_bench/sample_003640/001.jpg", + "spar_bench/sample_003640/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3641, + "data_source": "SPAR-Bench", + "question": "The depth of books (red point) is given as 2.0. Find the absolute depth difference in meters between armchair (green point) and books (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003641/000.jpg", + "spar_bench/sample_003641/001.jpg", + "spar_bench/sample_003641/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3642, + "data_source": "SPAR-Bench", + "question": "If the depth of box (red point) is 1.4, calculate the absolute depth difference in meters between cart (green point) and water cooler (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003642/000.jpg", + "spar_bench/sample_003642/001.jpg", + "spar_bench/sample_003642/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3643, + "data_source": "SPAR-Bench", + "question": "Based on telephone's (red point) depth of 1.5, compute the relative depth difference between chair (green point) and tv (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003643/000.jpg", + "spar_bench/sample_003643/001.jpg", + "spar_bench/sample_003643/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3644, + "data_source": "SPAR-Bench", + "question": "With armchair (red point) at a depth of 2.6, calculate the depth difference (absolute value) between armchair (green point) and coffee table (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003644/000.jpg", + "spar_bench/sample_003644/001.jpg", + "spar_bench/sample_003644/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3645, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between dresser (green point) and closet door (blue point), given that armchair (red point) is at a depth of 1.2? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003645/000.jpg", + "spar_bench/sample_003645/001.jpg", + "spar_bench/sample_003645/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3646, + "data_source": "SPAR-Bench", + "question": "Using table (red point) with a depth of 3.9, compute the absolute depth difference between couch (green point) and end table (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003646/000.jpg", + "spar_bench/sample_003646/001.jpg", + "spar_bench/sample_003646/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3647, + "data_source": "SPAR-Bench", + "question": "Using table (red point) with a depth of 1.9, compute the absolute depth difference in meters between chair (green point) and table (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003647/000.jpg", + "spar_bench/sample_003647/001.jpg", + "spar_bench/sample_003647/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3648, + "data_source": "SPAR-Bench", + "question": "Using shower control valve (red point) as a reference with a depth of 2.1, determine how far apart in depth towels (green point) and bathtub (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003648/000.jpg", + "spar_bench/sample_003648/001.jpg", + "spar_bench/sample_003648/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3649, + "data_source": "SPAR-Bench", + "question": "The known depth of office chair (red point) is 1.9. Calculate how much difference in depth there is between office chair (green point) and office chair (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003649/000.jpg", + "spar_bench/sample_003649/001.jpg", + "spar_bench/sample_003649/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3650, + "data_source": "SPAR-Bench", + "question": "Assume the depth of shelf (red point) is 2.6. How much difference in depth is there between chair (green point) and curtain (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003650/000.jpg", + "spar_bench/sample_003650/001.jpg", + "spar_bench/sample_003650/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3651, + "data_source": "SPAR-Bench", + "question": "If toilet (red point) is at a depth of 0.9, compute the absolute depth difference between toilet paper (green point) and trash can (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003651/000.jpg", + "spar_bench/sample_003651/001.jpg", + "spar_bench/sample_003651/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3652, + "data_source": "SPAR-Bench", + "question": "The depth of blanket (red point) is known to be 1.7. Calculate the absolute value of the depth difference in meters between chair (green point) and blinds (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003652/000.jpg", + "spar_bench/sample_003652/001.jpg", + "spar_bench/sample_003652/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3653, + "data_source": "SPAR-Bench", + "question": "Using the depth of armchair (red point) as 2.3, find the absolute difference in depth between armchair (green point) and armchair (blue point). State the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003653/000.jpg", + "spar_bench/sample_003653/001.jpg", + "spar_bench/sample_003653/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3654, + "data_source": "SPAR-Bench", + "question": "Assume the depth of chair (red point) is 1.1. How much deeper or shallower is desk (green point) relative to curtains (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003654/000.jpg", + "spar_bench/sample_003654/001.jpg", + "spar_bench/sample_003654/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3655, + "data_source": "SPAR-Bench", + "question": "With office chair's (red point) depth at 1.8, calculate the depth difference between curtains (green point) and desk (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003655/000.jpg", + "spar_bench/sample_003655/001.jpg", + "spar_bench/sample_003655/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3656, + "data_source": "SPAR-Bench", + "question": "If armchair (red point) is at a depth of 2.4, compute the absolute depth difference between table (green point) and armchair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003656/000.jpg", + "spar_bench/sample_003656/001.jpg", + "spar_bench/sample_003656/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3657, + "data_source": "SPAR-Bench", + "question": "The depth of toilet paper (red point) is 1.3. How far apart in depth are trash can (green point) and toilet paper (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003657/000.jpg", + "spar_bench/sample_003657/001.jpg", + "spar_bench/sample_003657/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3658, + "data_source": "SPAR-Bench", + "question": "Given that kitchen cabinet (red point) is at a depth of 3.4, calculate the absolute depth difference between refrigerator (green point) and refrigerator (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003658/000.jpg", + "spar_bench/sample_003658/001.jpg", + "spar_bench/sample_003658/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3659, + "data_source": "SPAR-Bench", + "question": "The depth of couch (red point) is 3.4. How far apart in depth are chair (green point) and picture (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003659/000.jpg", + "spar_bench/sample_003659/001.jpg", + "spar_bench/sample_003659/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3660, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between couch (green point) and books (blue point) if the depth of backpack (red point) is 2.8? State the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003660/000.jpg", + "spar_bench/sample_003660/001.jpg", + "spar_bench/sample_003660/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3661, + "data_source": "SPAR-Bench", + "question": "The depth of paper bag (red point) is 1.1. Using this as a reference, find the depth difference between chair (green point) and trash can (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003661/000.jpg", + "spar_bench/sample_003661/001.jpg", + "spar_bench/sample_003661/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3662, + "data_source": "SPAR-Bench", + "question": "Assume the depth of box (red point) is 1.1. What is the depth difference between box (green point) and box (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003662/000.jpg", + "spar_bench/sample_003662/001.jpg", + "spar_bench/sample_003662/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3663, + "data_source": "SPAR-Bench", + "question": "If laundry hamper (red point) is at a depth of 3.8, compute the absolute depth difference between fan (green point) and trash can (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003663/000.jpg", + "spar_bench/sample_003663/001.jpg", + "spar_bench/sample_003663/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3664, + "data_source": "SPAR-Bench", + "question": "Assume chair (red point) has a depth of 2.3. How much difference in depth exists between table (green point) and chair (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003664/000.jpg", + "spar_bench/sample_003664/001.jpg", + "spar_bench/sample_003664/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3665, + "data_source": "SPAR-Bench", + "question": "Given that the depth of chair (red point) is 1.2, find the depth difference (absolute value) between trash can (green point) and window (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003665/000.jpg", + "spar_bench/sample_003665/001.jpg", + "spar_bench/sample_003665/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3666, + "data_source": "SPAR-Bench", + "question": "If toilet (red point) is at a depth of 1.6, calculate the absolute depth difference between rail (green point) and toilet paper (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003666/000.jpg", + "spar_bench/sample_003666/001.jpg", + "spar_bench/sample_003666/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3667, + "data_source": "SPAR-Bench", + "question": "Using mattress (red point) with a depth of 2.1, compute the absolute depth difference in meters between bedframe (green point) and radiator (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003667/000.jpg", + "spar_bench/sample_003667/001.jpg", + "spar_bench/sample_003667/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3668, + "data_source": "SPAR-Bench", + "question": "Using container (red point) with a known depth of 1.3, calculate the absolute value of the depth difference between container (green point) and trash can (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003668/000.jpg", + "spar_bench/sample_003668/001.jpg", + "spar_bench/sample_003668/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3669, + "data_source": "SPAR-Bench", + "question": "If cushion (red point) has a depth of 3.3, calculate the difference in depth between fan (green point) and desk (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003669/000.jpg", + "spar_bench/sample_003669/001.jpg", + "spar_bench/sample_003669/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3670, + "data_source": "SPAR-Bench", + "question": "Assume the depth of sleeping bag (red point) is 1.2. How much difference in depth is there between tv (green point) and chair (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003670/000.jpg", + "spar_bench/sample_003670/001.jpg", + "spar_bench/sample_003670/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3671, + "data_source": "SPAR-Bench", + "question": "Using the depth of table (red point) as 3.8, determine the absolute difference in depth between chair (green point) and table (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003671/000.jpg", + "spar_bench/sample_003671/001.jpg", + "spar_bench/sample_003671/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3672, + "data_source": "SPAR-Bench", + "question": "The depth of drawer (red point) is 2.9. Use this information to find the absolute depth difference between office chair (green point) and backpack (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003672/000.jpg", + "spar_bench/sample_003672/001.jpg", + "spar_bench/sample_003672/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3673, + "data_source": "SPAR-Bench", + "question": "If pillow (red point) is at a depth of 2.6, calculate the absolute depth difference between pillow (green point) and backpack (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003673/000.jpg", + "spar_bench/sample_003673/001.jpg", + "spar_bench/sample_003673/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3674, + "data_source": "SPAR-Bench", + "question": "The depth of refrigerator (red point) is 2.2. Use this information to find the absolute depth difference between cabinet (green point) and shelf (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003674/000.jpg", + "spar_bench/sample_003674/001.jpg", + "spar_bench/sample_003674/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3675, + "data_source": "SPAR-Bench", + "question": "Given that book (red point) has a depth of 1.8, determine the absolute depth difference between range hood (green point) and kitchen cabinets (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003675/000.jpg", + "spar_bench/sample_003675/001.jpg", + "spar_bench/sample_003675/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3676, + "data_source": "SPAR-Bench", + "question": "If table (red point) is at a depth of 2.4, what is the depth difference between chair (green point) and chair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003676/000.jpg", + "spar_bench/sample_003676/001.jpg", + "spar_bench/sample_003676/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3677, + "data_source": "SPAR-Bench", + "question": "Assume the depth of toaster oven (red point) is 2.1. How much difference in depth is there between kitchen cabinets (green point) and kitchen cabinets (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003677/000.jpg", + "spar_bench/sample_003677/001.jpg", + "spar_bench/sample_003677/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3678, + "data_source": "SPAR-Bench", + "question": "If backpack (red point) is at a depth of 2.6, what is the depth difference between telephone (green point) and desk (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003678/000.jpg", + "spar_bench/sample_003678/001.jpg", + "spar_bench/sample_003678/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3679, + "data_source": "SPAR-Bench", + "question": "The depth of monitor (red point) is known to be 3.5. Calculate the absolute value of the depth difference in meters between table (green point) and keyboard (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003679/000.jpg", + "spar_bench/sample_003679/001.jpg", + "spar_bench/sample_003679/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3680, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between chair (green point) and chair (blue point), given that chair (red point) is at a depth of 2.0? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003680/000.jpg", + "spar_bench/sample_003680/001.jpg", + "spar_bench/sample_003680/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3681, + "data_source": "SPAR-Bench", + "question": "Assume window (red point) has a depth of 1.2. How far apart in depth are shower curtain (green point) and mat (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003681/000.jpg", + "spar_bench/sample_003681/001.jpg", + "spar_bench/sample_003681/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3682, + "data_source": "SPAR-Bench", + "question": "If the depth of toilet paper (red point) is set at 1.1, how far apart in depth are objects bathroom counter (green point) and trash can (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003682/000.jpg", + "spar_bench/sample_003682/001.jpg", + "spar_bench/sample_003682/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3683, + "data_source": "SPAR-Bench", + "question": "If the depth of table (red point) is known to be 1.5, calculate the depth difference between chair (green point) and chair (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003683/000.jpg", + "spar_bench/sample_003683/001.jpg", + "spar_bench/sample_003683/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3684, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between chair (green point) and chair (blue point), given that chair (red point) is at a depth of 3.1? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003684/000.jpg", + "spar_bench/sample_003684/001.jpg", + "spar_bench/sample_003684/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3685, + "data_source": "SPAR-Bench", + "question": "Assume the depth of trash can (red point) is 1.4. How much deeper or shallower is trash can (green point) relative to container (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003685/000.jpg", + "spar_bench/sample_003685/001.jpg", + "spar_bench/sample_003685/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3686, + "data_source": "SPAR-Bench", + "question": "The depth of backpack (red point) is known to be 0.9. Calculate the absolute value of the depth difference in meters between couch (green point) and backpack (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003686/000.jpg", + "spar_bench/sample_003686/001.jpg", + "spar_bench/sample_003686/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3687, + "data_source": "SPAR-Bench", + "question": "Assume the depth of soap dish (red point) is 1.6. How much deeper or shallower is bench (green point) relative to iron (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003687/000.jpg", + "spar_bench/sample_003687/001.jpg", + "spar_bench/sample_003687/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3688, + "data_source": "SPAR-Bench", + "question": "With books's (red point) depth at 2.5, calculate the depth difference between bookshelf (green point) and books (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003688/000.jpg", + "spar_bench/sample_003688/001.jpg", + "spar_bench/sample_003688/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3689, + "data_source": "SPAR-Bench", + "question": "If the depth of recycling bin (red point) is 2.1, calculate the absolute depth difference in meters between trash can (green point) and copier (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003689/000.jpg", + "spar_bench/sample_003689/001.jpg", + "spar_bench/sample_003689/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3690, + "data_source": "SPAR-Bench", + "question": "The depth of blanket (red point) is 1.3. Using this as a reference, find the depth difference between pillow (green point) and pillow (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003690/000.jpg", + "spar_bench/sample_003690/001.jpg", + "spar_bench/sample_003690/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3691, + "data_source": "SPAR-Bench", + "question": "With book (red point) at a depth of 2.6, calculate the depth difference (in meters) between armchair (green point) and couch (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003691/000.jpg", + "spar_bench/sample_003691/001.jpg", + "spar_bench/sample_003691/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3692, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between tv (green point) and tv stand (blue point) if the depth of sleeping bag (red point) is 2.7? State the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003692/000.jpg", + "spar_bench/sample_003692/001.jpg", + "spar_bench/sample_003692/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3693, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 2.8. How far apart in depth are chair (green point) and chair (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003693/000.jpg", + "spar_bench/sample_003693/001.jpg", + "spar_bench/sample_003693/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3694, + "data_source": "SPAR-Bench", + "question": "Using cabinet (red point) with a depth of 2.1, compute the absolute depth difference in meters between chair (green point) and bucket (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003694/000.jpg", + "spar_bench/sample_003694/001.jpg", + "spar_bench/sample_003694/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3695, + "data_source": "SPAR-Bench", + "question": "The depth of armchair (red point) is 2.5. Use this information to find the absolute depth difference between armchair (green point) and table (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003695/000.jpg", + "spar_bench/sample_003695/001.jpg", + "spar_bench/sample_003695/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3696, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of trash can (red point) is 1.8, how much difference in depth is there between chair (green point) and picture (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003696/000.jpg", + "spar_bench/sample_003696/001.jpg", + "spar_bench/sample_003696/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3697, + "data_source": "SPAR-Bench", + "question": "The depth of counter (red point) is 2.0. Determine the absolute depth difference between printer (green point) and table (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003697/000.jpg", + "spar_bench/sample_003697/001.jpg", + "spar_bench/sample_003697/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3698, + "data_source": "SPAR-Bench", + "question": "The depth of breakfast bar (red point) is 1.8. Using this as a reference, find the depth difference between kitchen cabinet (green point) and kitchen cabinet (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003698/000.jpg", + "spar_bench/sample_003698/001.jpg", + "spar_bench/sample_003698/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3699, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 2.1. Use this information to find the absolute depth difference between shelf (green point) and monitor (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003699/000.jpg", + "spar_bench/sample_003699/001.jpg", + "spar_bench/sample_003699/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3700, + "data_source": "SPAR-Bench", + "question": "The depth of bed (red point) is given as 2.3. Calculate how far apart in depth trash can (green point) and curtains (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003700/000.jpg", + "spar_bench/sample_003700/001.jpg", + "spar_bench/sample_003700/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3701, + "data_source": "SPAR-Bench", + "question": "Assume the depth of chair (red point) is 1.9. How much deeper or shallower is chair (green point) relative to table (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003701/000.jpg", + "spar_bench/sample_003701/001.jpg", + "spar_bench/sample_003701/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3702, + "data_source": "SPAR-Bench", + "question": "Using towel (red point) as a reference with a depth of 1.5, determine how far apart in depth towel (green point) and sink (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003702/000.jpg", + "spar_bench/sample_003702/001.jpg", + "spar_bench/sample_003702/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3703, + "data_source": "SPAR-Bench", + "question": "With trash can (red point) at a known depth of 1.5, what is the absolute depth difference between cart (green point) and cabinets (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003703/000.jpg", + "spar_bench/sample_003703/001.jpg", + "spar_bench/sample_003703/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3704, + "data_source": "SPAR-Bench", + "question": "The known depth of chair (red point) is 2.0. Using this as a reference, calculate the absolute depth difference between desk (green point) and monitor (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003704/000.jpg", + "spar_bench/sample_003704/001.jpg", + "spar_bench/sample_003704/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3705, + "data_source": "SPAR-Bench", + "question": "If pillar (red point) is at a depth of 2.5, compute the absolute depth difference between mailboxes (green point) and backpack (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003705/000.jpg", + "spar_bench/sample_003705/001.jpg", + "spar_bench/sample_003705/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3706, + "data_source": "SPAR-Bench", + "question": "Using table (red point) with a known depth of 2.7, calculate the absolute value of the depth difference between table (green point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003706/000.jpg", + "spar_bench/sample_003706/001.jpg", + "spar_bench/sample_003706/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3707, + "data_source": "SPAR-Bench", + "question": "The known depth of window (red point) is 2.2. Calculate how much difference in depth there is between shelf (green point) and picture (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003707/000.jpg", + "spar_bench/sample_003707/001.jpg", + "spar_bench/sample_003707/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3708, + "data_source": "SPAR-Bench", + "question": "Given that person (red point) is at a depth of 1.5, calculate the absolute depth difference between desk (green point) and telephone (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003708/000.jpg", + "spar_bench/sample_003708/001.jpg", + "spar_bench/sample_003708/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3709, + "data_source": "SPAR-Bench", + "question": "The known depth of picture (red point) is 4.2. What is the absolute depth difference between the objects laundry basket (green point) and ceiling light (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003709/000.jpg", + "spar_bench/sample_003709/001.jpg", + "spar_bench/sample_003709/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3710, + "data_source": "SPAR-Bench", + "question": "The known depth of books (red point) is 2.9. What is the absolute depth difference between the objects bookshelf (green point) and books (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003710/000.jpg", + "spar_bench/sample_003710/001.jpg", + "spar_bench/sample_003710/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3711, + "data_source": "SPAR-Bench", + "question": "The known depth of armchair (red point) is 1.8. Calculate how much difference in depth there is between armchair (green point) and armchair (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003711/000.jpg", + "spar_bench/sample_003711/001.jpg", + "spar_bench/sample_003711/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3712, + "data_source": "SPAR-Bench", + "question": "Assume chair (red point) has a depth of 2.4. How far apart in depth are blanket (green point) and shelf (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003712/000.jpg", + "spar_bench/sample_003712/001.jpg", + "spar_bench/sample_003712/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3713, + "data_source": "SPAR-Bench", + "question": "The depth of sofa chair (red point) is 2.1. How far apart in depth are sofa chair (green point) and coffee table (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003713/000.jpg", + "spar_bench/sample_003713/001.jpg", + "spar_bench/sample_003713/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3714, + "data_source": "SPAR-Bench", + "question": "The depth of monitor (red point) is 2.6. Using this as a reference, find the depth difference between monitor (green point) and file cabinet (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003714/000.jpg", + "spar_bench/sample_003714/001.jpg", + "spar_bench/sample_003714/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3715, + "data_source": "SPAR-Bench", + "question": "With picture (red point) at a depth of 2.5, calculate the depth difference (absolute value) between cabinet (green point) and ottoman (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003715/000.jpg", + "spar_bench/sample_003715/001.jpg", + "spar_bench/sample_003715/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3716, + "data_source": "SPAR-Bench", + "question": "The depth of monitor (red point) is 1.9. Use this reference to find the absolute depth difference between office chair (green point) and monitor (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003716/000.jpg", + "spar_bench/sample_003716/001.jpg", + "spar_bench/sample_003716/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3717, + "data_source": "SPAR-Bench", + "question": "Assume the depth of monitor (red point) is 1.1. How much deeper or shallower is monitor (green point) relative to mouse (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003717/000.jpg", + "spar_bench/sample_003717/001.jpg", + "spar_bench/sample_003717/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3718, + "data_source": "SPAR-Bench", + "question": "The known depth of rail (red point) is 1.8. What is the absolute depth difference between the objects trash can (green point) and toilet (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003718/000.jpg", + "spar_bench/sample_003718/001.jpg", + "spar_bench/sample_003718/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3719, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is known to be 2.6, calculate the depth difference between round table (green point) and chair (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003719/000.jpg", + "spar_bench/sample_003719/001.jpg", + "spar_bench/sample_003719/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3720, + "data_source": "SPAR-Bench", + "question": "The depth of pillow (red point) is 2.7. Use this reference to find the absolute depth difference between pillow (green point) and pillow (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003720/000.jpg", + "spar_bench/sample_003720/001.jpg", + "spar_bench/sample_003720/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3721, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between bed (green point) and backpack (blue point), given that box (red point) is at a depth of 2.4? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003721/000.jpg", + "spar_bench/sample_003721/001.jpg", + "spar_bench/sample_003721/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3722, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is given as 3.6. Find the absolute depth difference in meters between chair (green point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003722/000.jpg", + "spar_bench/sample_003722/001.jpg", + "spar_bench/sample_003722/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3723, + "data_source": "SPAR-Bench", + "question": "The depth of mini fridge (red point) is 1.4. Using this reference, what is the absolute depth difference in meters between monitor (green point) and keyboard (blue point)? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003723/000.jpg", + "spar_bench/sample_003723/001.jpg", + "spar_bench/sample_003723/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3724, + "data_source": "SPAR-Bench", + "question": "Assume the depth of books (red point) is 2.1. What is the depth difference between bookshelf (green point) and books (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003724/000.jpg", + "spar_bench/sample_003724/001.jpg", + "spar_bench/sample_003724/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3725, + "data_source": "SPAR-Bench", + "question": "Using the depth of toilet (red point) as 1.0, determine the absolute difference in depth between toilet paper (green point) and shower faucet handle (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003725/000.jpg", + "spar_bench/sample_003725/001.jpg", + "spar_bench/sample_003725/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3726, + "data_source": "SPAR-Bench", + "question": "If table (red point) is at a depth of 2.5, calculate the absolute depth difference between mattress (green point) and chair (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003726/000.jpg", + "spar_bench/sample_003726/001.jpg", + "spar_bench/sample_003726/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3727, + "data_source": "SPAR-Bench", + "question": "The depth of shower curtain (red point) is known to be 1.1. Calculate the absolute value of the depth difference in meters between toilet (green point) and handrail (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003727/000.jpg", + "spar_bench/sample_003727/001.jpg", + "spar_bench/sample_003727/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3728, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of lamp (red point) is 1.1, how much difference in depth is there between chair (green point) and ottoman (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003728/000.jpg", + "spar_bench/sample_003728/001.jpg", + "spar_bench/sample_003728/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3729, + "data_source": "SPAR-Bench", + "question": "With water pitcher (red point) at a known depth of 3.0, what is the absolute depth difference between kitchen counter (green point) and bag (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003729/000.jpg", + "spar_bench/sample_003729/001.jpg", + "spar_bench/sample_003729/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3730, + "data_source": "SPAR-Bench", + "question": "Using hat (red point) with a depth of 1.4, compute the absolute depth difference in meters between cabinet (green point) and jar (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003730/000.jpg", + "spar_bench/sample_003730/001.jpg", + "spar_bench/sample_003730/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3731, + "data_source": "SPAR-Bench", + "question": "If the depth of end table (red point) is known to be 2.2, calculate the depth difference between couch (green point) and couch (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003731/000.jpg", + "spar_bench/sample_003731/001.jpg", + "spar_bench/sample_003731/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3732, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is given as 1.2. Calculate how far apart in depth monitor (green point) and backpack (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003732/000.jpg", + "spar_bench/sample_003732/001.jpg", + "spar_bench/sample_003732/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3733, + "data_source": "SPAR-Bench", + "question": "The known depth of paper towel dispenser (red point) is 2.7. What is the absolute depth difference between the objects jacket (green point) and bathroom counter (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003733/000.jpg", + "spar_bench/sample_003733/001.jpg", + "spar_bench/sample_003733/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3734, + "data_source": "SPAR-Bench", + "question": "If the depth of bookshelf (red point) is 2.0, determine the absolute depth difference between pillow (green point) and person (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003734/000.jpg", + "spar_bench/sample_003734/001.jpg", + "spar_bench/sample_003734/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3735, + "data_source": "SPAR-Bench", + "question": "The known depth of chair (red point) is 3.3. What is the absolute depth difference between the objects window (green point) and chair (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003735/000.jpg", + "spar_bench/sample_003735/001.jpg", + "spar_bench/sample_003735/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3736, + "data_source": "SPAR-Bench", + "question": "Given that laptop (red point) has a depth of 1.5, determine the absolute depth difference between desk (green point) and monitor (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003736/000.jpg", + "spar_bench/sample_003736/001.jpg", + "spar_bench/sample_003736/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3737, + "data_source": "SPAR-Bench", + "question": "The known depth of sofa chair (red point) is 1.7. What is the absolute depth difference between the objects sofa chair (green point) and coffee table (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003737/000.jpg", + "spar_bench/sample_003737/001.jpg", + "spar_bench/sample_003737/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3738, + "data_source": "SPAR-Bench", + "question": "Given that chair (red point) has a depth of 2.1, determine the absolute depth difference between chair (green point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003738/000.jpg", + "spar_bench/sample_003738/001.jpg", + "spar_bench/sample_003738/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3739, + "data_source": "SPAR-Bench", + "question": "Given that coffee table (red point) is at a depth of 1.4, calculate the absolute depth difference between armchair (green point) and armchair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003739/000.jpg", + "spar_bench/sample_003739/001.jpg", + "spar_bench/sample_003739/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3740, + "data_source": "SPAR-Bench", + "question": "Assume the depth of end table (red point) is 2.8. How much difference in depth is there between armchair (green point) and couch (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003740/000.jpg", + "spar_bench/sample_003740/001.jpg", + "spar_bench/sample_003740/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3741, + "data_source": "SPAR-Bench", + "question": "Assume soap dish (red point) has a depth of 1.4. How much difference in depth exists between sink (green point) and bathroom vanity (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003741/000.jpg", + "spar_bench/sample_003741/001.jpg", + "spar_bench/sample_003741/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3742, + "data_source": "SPAR-Bench", + "question": "Assume the depth of chair (red point) is 1.7. How much deeper or shallower is kitchen cabinet (green point) relative to stove (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003742/000.jpg", + "spar_bench/sample_003742/001.jpg", + "spar_bench/sample_003742/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3743, + "data_source": "SPAR-Bench", + "question": "If the depth of box (red point) is 2.8, calculate the absolute depth difference in meters between file cabinet (green point) and bin (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003743/000.jpg", + "spar_bench/sample_003743/001.jpg", + "spar_bench/sample_003743/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3744, + "data_source": "SPAR-Bench", + "question": "Assume window (red point) has a depth of 3.6. How much difference in depth exists between shelf (green point) and refrigerator (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003744/000.jpg", + "spar_bench/sample_003744/001.jpg", + "spar_bench/sample_003744/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3745, + "data_source": "SPAR-Bench", + "question": "The depth of sink (red point) is 1.5. How far apart in depth are trash bin (green point) and sign (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003745/000.jpg", + "spar_bench/sample_003745/001.jpg", + "spar_bench/sample_003745/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3746, + "data_source": "SPAR-Bench", + "question": "If the depth of blinds (red point) is given as 2.0, how far apart in depth are dollhouse (green point) and window (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003746/000.jpg", + "spar_bench/sample_003746/001.jpg", + "spar_bench/sample_003746/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3747, + "data_source": "SPAR-Bench", + "question": "With box (red point) at a depth of 1.5, calculate the depth difference (absolute value) between chair (green point) and desk (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003747/000.jpg", + "spar_bench/sample_003747/001.jpg", + "spar_bench/sample_003747/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3748, + "data_source": "SPAR-Bench", + "question": "If the depth of sink (red point) is 0.7, determine the absolute depth difference between towel (green point) and towel (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003748/000.jpg", + "spar_bench/sample_003748/001.jpg", + "spar_bench/sample_003748/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3749, + "data_source": "SPAR-Bench", + "question": "The depth of toilet paper (red point) is given as 1.1. Calculate how far apart in depth window (green point) and trash can (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003749/000.jpg", + "spar_bench/sample_003749/001.jpg", + "spar_bench/sample_003749/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3750, + "data_source": "SPAR-Bench", + "question": "Assume the depth of ottoman (red point) is 1.7. How much difference in depth is there between couch (green point) and table (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003750/000.jpg", + "spar_bench/sample_003750/001.jpg", + "spar_bench/sample_003750/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3751, + "data_source": "SPAR-Bench", + "question": "With chair's (red point) depth at 2.8, calculate the depth difference between bookshelf (green point) and monitor (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003751/000.jpg", + "spar_bench/sample_003751/001.jpg", + "spar_bench/sample_003751/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3752, + "data_source": "SPAR-Bench", + "question": "Using the depth of desk (red point) as 2.4, determine the absolute difference in depth between office chair (green point) and plant (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003752/000.jpg", + "spar_bench/sample_003752/001.jpg", + "spar_bench/sample_003752/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3753, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is known to be 3.0. Calculate the absolute value of the depth difference in meters between chair (green point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003753/000.jpg", + "spar_bench/sample_003753/001.jpg", + "spar_bench/sample_003753/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3754, + "data_source": "SPAR-Bench", + "question": "Using table (red point) with a depth of 2.2, compute the absolute depth difference between fireplace (green point) and chair (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003754/000.jpg", + "spar_bench/sample_003754/001.jpg", + "spar_bench/sample_003754/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3755, + "data_source": "SPAR-Bench", + "question": "Given that table (red point) has a depth of 3.7, calculate the absolute value of the depth difference between table (green point) and chair (blue point). Express the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003755/000.jpg", + "spar_bench/sample_003755/001.jpg", + "spar_bench/sample_003755/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3756, + "data_source": "SPAR-Bench", + "question": "If desk (red point) is at a depth of 2.0, what is the depth difference between recycling bin (green point) and shelf (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003756/000.jpg", + "spar_bench/sample_003756/001.jpg", + "spar_bench/sample_003756/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3757, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between pillow (green point) and blanket (blue point), given that pillow (red point) is at a depth of 2.3? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003757/000.jpg", + "spar_bench/sample_003757/001.jpg", + "spar_bench/sample_003757/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3758, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between chair (green point) and headphone (blue point), given that monitor (red point) is at a depth of 2.4? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003758/000.jpg", + "spar_bench/sample_003758/001.jpg", + "spar_bench/sample_003758/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3759, + "data_source": "SPAR-Bench", + "question": "The depth of shoe (red point) is given as 2.9. Find the absolute depth difference in meters between roof (green point) and box (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003759/000.jpg", + "spar_bench/sample_003759/001.jpg", + "spar_bench/sample_003759/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3760, + "data_source": "SPAR-Bench", + "question": "Using table (red point) with a depth of 1.3, compute the absolute depth difference in meters between office chair (green point) and office chair (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003760/000.jpg", + "spar_bench/sample_003760/001.jpg", + "spar_bench/sample_003760/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3761, + "data_source": "SPAR-Bench", + "question": "Based on box's (red point) depth of 4.7, compute the relative depth difference between table (green point) and table (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003761/000.jpg", + "spar_bench/sample_003761/001.jpg", + "spar_bench/sample_003761/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3762, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is set at 4.0, how far apart in depth are objects whiteboard (green point) and light switch (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003762/000.jpg", + "spar_bench/sample_003762/001.jpg", + "spar_bench/sample_003762/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3763, + "data_source": "SPAR-Bench", + "question": "If bottle (red point) is at a depth of 1.0, compute the depth difference between toilet paper holder (green point) and bottle (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003763/000.jpg", + "spar_bench/sample_003763/001.jpg", + "spar_bench/sample_003763/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3764, + "data_source": "SPAR-Bench", + "question": "The depth of bottle (red point) is 2.9. Use this reference to find the absolute depth difference between power socket (green point) and bottle (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003764/000.jpg", + "spar_bench/sample_003764/001.jpg", + "spar_bench/sample_003764/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3765, + "data_source": "SPAR-Bench", + "question": "The depth of paper (red point) is 1.0. Use this reference to find the absolute depth difference between shelf (green point) and power socket (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003765/000.jpg", + "spar_bench/sample_003765/001.jpg", + "spar_bench/sample_003765/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3766, + "data_source": "SPAR-Bench", + "question": "The known depth of power socket (red point) is 0.9. Using this as a reference, calculate the absolute depth difference between storage ecabinet (green point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003766/000.jpg", + "spar_bench/sample_003766/001.jpg", + "spar_bench/sample_003766/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3767, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between power sockets (green point) and power sockets (blue point), given that light switch (red point) is at a depth of 0.8? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003767/000.jpg", + "spar_bench/sample_003767/001.jpg", + "spar_bench/sample_003767/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3768, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of paper towels (red point) is 3.7, how much difference in depth is there between picture (green point) and kitchen counter (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003768/000.jpg", + "spar_bench/sample_003768/001.jpg", + "spar_bench/sample_003768/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3769, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between cabinet (green point) and kitchen cabinet (blue point), given that SPLIT (red point) is at a depth of 1.3? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003769/000.jpg", + "spar_bench/sample_003769/001.jpg", + "spar_bench/sample_003769/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3770, + "data_source": "SPAR-Bench", + "question": "The depth of outlet (red point) is 4.2. Using this as a reference, find the depth difference between windowframe (green point) and window (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003770/000.jpg", + "spar_bench/sample_003770/001.jpg", + "spar_bench/sample_003770/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3771, + "data_source": "SPAR-Bench", + "question": "With chessboard (red point) at a depth of 3.3, calculate the depth difference (in meters) between table (green point) and cushion (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003771/000.jpg", + "spar_bench/sample_003771/001.jpg", + "spar_bench/sample_003771/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3772, + "data_source": "SPAR-Bench", + "question": "With toilet brush (red point) at a depth of 1.9, calculate the depth difference (in meters) between toilet (green point) and trash bin (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003772/000.jpg", + "spar_bench/sample_003772/001.jpg", + "spar_bench/sample_003772/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3773, + "data_source": "SPAR-Bench", + "question": "The depth of book (red point) is 1.9. Using this as a reference, find the depth difference between chair (green point) and book (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003773/000.jpg", + "spar_bench/sample_003773/001.jpg", + "spar_bench/sample_003773/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3774, + "data_source": "SPAR-Bench", + "question": "The known depth of utensils (red point) is 2.1. Calculate how much difference in depth there is between serving trolley (green point) and window (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003774/000.jpg", + "spar_bench/sample_003774/001.jpg", + "spar_bench/sample_003774/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3775, + "data_source": "SPAR-Bench", + "question": "The known depth of blinds (red point) is 2.4. Calculate how much difference in depth there is between power brick (green point) and book (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003775/000.jpg", + "spar_bench/sample_003775/001.jpg", + "spar_bench/sample_003775/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3776, + "data_source": "SPAR-Bench", + "question": "Assume the depth of light switch (red point) is 0.9. What is the depth difference between bathtub (green point) and trash bin (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003776/000.jpg", + "spar_bench/sample_003776/001.jpg", + "spar_bench/sample_003776/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3777, + "data_source": "SPAR-Bench", + "question": "The depth of whiteboard (red point) is 2.8. Use this information to find the absolute depth difference between bucket (green point) and standing fan (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003777/000.jpg", + "spar_bench/sample_003777/001.jpg", + "spar_bench/sample_003777/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3778, + "data_source": "SPAR-Bench", + "question": "Assume light switch (red point) has a depth of 0.8. How much difference in depth exists between power sockets (green point) and box (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003778/000.jpg", + "spar_bench/sample_003778/001.jpg", + "spar_bench/sample_003778/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3779, + "data_source": "SPAR-Bench", + "question": "The depth of towel (red point) is 1.0. Using this as a reference, find the depth difference between scissors (green point) and shelf (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003779/000.jpg", + "spar_bench/sample_003779/001.jpg", + "spar_bench/sample_003779/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3780, + "data_source": "SPAR-Bench", + "question": "The depth of stove (red point) is 1.4. Determine the absolute depth difference between pan set (green point) and kitchen counter (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003780/000.jpg", + "spar_bench/sample_003780/001.jpg", + "spar_bench/sample_003780/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3781, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between remove (green point) and box (blue point) if the depth of beanbag (red point) is 3.9? State the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003781/000.jpg", + "spar_bench/sample_003781/001.jpg", + "spar_bench/sample_003781/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3782, + "data_source": "SPAR-Bench", + "question": "The depth of window sill (red point) is known to be 0.8. Calculate the absolute value of the depth difference in meters between desk (green point) and monitor (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003782/000.jpg", + "spar_bench/sample_003782/001.jpg", + "spar_bench/sample_003782/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3783, + "data_source": "SPAR-Bench", + "question": "The known depth of dishwasher (red point) is 1.1. Calculate the absolute difference in depth (in meters) between kitchen cabinet (green point) and container (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003783/000.jpg", + "spar_bench/sample_003783/001.jpg", + "spar_bench/sample_003783/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3784, + "data_source": "SPAR-Bench", + "question": "If table (red point) is at a depth of 0.3, compute the depth difference between chair (green point) and box (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003784/000.jpg", + "spar_bench/sample_003784/001.jpg", + "spar_bench/sample_003784/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3785, + "data_source": "SPAR-Bench", + "question": "If the depth of split (red point) is known to be 0.3, calculate the depth difference between split (green point) and cabinet (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003785/000.jpg", + "spar_bench/sample_003785/001.jpg", + "spar_bench/sample_003785/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3786, + "data_source": "SPAR-Bench", + "question": "The depth of trash bin (red point) is 1.5. Use this information to find the absolute depth difference between shelf (green point) and trash bin (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003786/000.jpg", + "spar_bench/sample_003786/001.jpg", + "spar_bench/sample_003786/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3787, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is known to be 3.0, calculate the depth difference between water kettle (green point) and box (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003787/000.jpg", + "spar_bench/sample_003787/001.jpg", + "spar_bench/sample_003787/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3788, + "data_source": "SPAR-Bench", + "question": "Assume cup (red point) has a depth of 0.9. How far apart in depth are kitchen counter (green point) and plate (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003788/000.jpg", + "spar_bench/sample_003788/001.jpg", + "spar_bench/sample_003788/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3789, + "data_source": "SPAR-Bench", + "question": "With stapler (red point) at a known depth of 0.7, what is the absolute depth difference between coax outlet (green point) and table (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003789/000.jpg", + "spar_bench/sample_003789/001.jpg", + "spar_bench/sample_003789/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3790, + "data_source": "SPAR-Bench", + "question": "Assume book (red point) has a depth of 2.2. What is the difference in depth between chair (green point) and book (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003790/000.jpg", + "spar_bench/sample_003790/001.jpg", + "spar_bench/sample_003790/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3791, + "data_source": "SPAR-Bench", + "question": "If the depth of table (red point) is 3.2, calculate the absolute depth difference in meters between chair (green point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003791/000.jpg", + "spar_bench/sample_003791/001.jpg", + "spar_bench/sample_003791/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3792, + "data_source": "SPAR-Bench", + "question": "If office chair (red point) is at a depth of 0.9, calculate the absolute depth difference between cup (green point) and office chair (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003792/000.jpg", + "spar_bench/sample_003792/001.jpg", + "spar_bench/sample_003792/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3793, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between cardboard (green point) and wooden plank (blue point), given that pipe (red point) is at a depth of 2.8? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003793/000.jpg", + "spar_bench/sample_003793/001.jpg", + "spar_bench/sample_003793/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3794, + "data_source": "SPAR-Bench", + "question": "With sink (red point) at a depth of 2.3, calculate the depth difference (in meters) between light switch (green point) and power socket (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003794/000.jpg", + "spar_bench/sample_003794/001.jpg", + "spar_bench/sample_003794/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3795, + "data_source": "SPAR-Bench", + "question": "Using coax socket (red point) with a depth of 0.9, compute the absolute depth difference between power strip (green point) and power sockets (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003795/000.jpg", + "spar_bench/sample_003795/001.jpg", + "spar_bench/sample_003795/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3796, + "data_source": "SPAR-Bench", + "question": "Using bag (red point) as a reference with a depth of 3.7, determine how far apart in depth sofa (green point) and cosmetic bag (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003796/000.jpg", + "spar_bench/sample_003796/001.jpg", + "spar_bench/sample_003796/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3797, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 1.5. How far apart in depth are table (green point) and shelf (blue point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003797/000.jpg", + "spar_bench/sample_003797/001.jpg", + "spar_bench/sample_003797/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3798, + "data_source": "SPAR-Bench", + "question": "With first aid box (red point) at a known depth of 3.8, what is the absolute depth difference between office chair (green point) and table (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003798/000.jpg", + "spar_bench/sample_003798/001.jpg", + "spar_bench/sample_003798/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3799, + "data_source": "SPAR-Bench", + "question": "Assume book (red point) has a depth of 2.0. How far apart in depth are book (green point) and shoes (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003799/000.jpg", + "spar_bench/sample_003799/001.jpg", + "spar_bench/sample_003799/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3800, + "data_source": "SPAR-Bench", + "question": "Assume the depth of paper (red point) is 2.7. How much difference in depth is there between closet (green point) and curtain (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003800/000.jpg", + "spar_bench/sample_003800/001.jpg", + "spar_bench/sample_003800/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3801, + "data_source": "SPAR-Bench", + "question": "The depth of light switch (red point) is 2.3. Use this information to find the absolute depth difference between smoke detector (green point) and mouse (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003801/000.jpg", + "spar_bench/sample_003801/001.jpg", + "spar_bench/sample_003801/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3802, + "data_source": "SPAR-Bench", + "question": "If cup (red point) is at a depth of 3.3, calculate the absolute depth difference between monitor (green point) and table (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003802/000.jpg", + "spar_bench/sample_003802/001.jpg", + "spar_bench/sample_003802/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3803, + "data_source": "SPAR-Bench", + "question": "Using the depth of bed (red point) as 1.8, find the absolute difference in depth between decoration (green point) and picture (blue point). State the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003803/000.jpg", + "spar_bench/sample_003803/001.jpg", + "spar_bench/sample_003803/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3804, + "data_source": "SPAR-Bench", + "question": "The depth of book (red point) is 1.9. Determine the absolute depth difference between chair (green point) and book (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003804/000.jpg", + "spar_bench/sample_003804/001.jpg", + "spar_bench/sample_003804/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3805, + "data_source": "SPAR-Bench", + "question": "If the depth of pen (red point) is 1.1, calculate the absolute depth difference in meters between cable (green point) and table (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003805/000.jpg", + "spar_bench/sample_003805/001.jpg", + "spar_bench/sample_003805/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3806, + "data_source": "SPAR-Bench", + "question": "The depth of heater (red point) is 2.5. Use this reference to find the absolute depth difference between box (green point) and office chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003806/000.jpg", + "spar_bench/sample_003806/001.jpg", + "spar_bench/sample_003806/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3807, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between box (green point) and table (blue point), given that box (red point) is at a depth of 3.8? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003807/000.jpg", + "spar_bench/sample_003807/001.jpg", + "spar_bench/sample_003807/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3808, + "data_source": "SPAR-Bench", + "question": "Using mouse (red point) as a reference with a depth of 2.8, determine how far apart in depth monitor (green point) and books (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003808/000.jpg", + "spar_bench/sample_003808/001.jpg", + "spar_bench/sample_003808/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3809, + "data_source": "SPAR-Bench", + "question": "Using broom (red point) with a depth of 1.9, compute the absolute depth difference between shelf (green point) and shoes (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003809/000.jpg", + "spar_bench/sample_003809/001.jpg", + "spar_bench/sample_003809/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3810, + "data_source": "SPAR-Bench", + "question": "If the depth of window frame (red point) is 3.9, calculate the absolute depth difference in meters between laboratory bench (green point) and electrical pipe (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003810/000.jpg", + "spar_bench/sample_003810/001.jpg", + "spar_bench/sample_003810/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3811, + "data_source": "SPAR-Bench", + "question": "The depth of shoes (red point) is 1.8. Determine the absolute depth difference between clothes (green point) and shoes (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003811/000.jpg", + "spar_bench/sample_003811/001.jpg", + "spar_bench/sample_003811/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3812, + "data_source": "SPAR-Bench", + "question": "Using toilet (red point) as a reference with a depth of 1.8, determine how far apart in depth sink (green point) and smoke detector (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003812/000.jpg", + "spar_bench/sample_003812/001.jpg", + "spar_bench/sample_003812/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3813, + "data_source": "SPAR-Bench", + "question": "With paper's (red point) depth at 0.9, calculate the depth difference between bedside table (green point) and paper (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003813/000.jpg", + "spar_bench/sample_003813/001.jpg", + "spar_bench/sample_003813/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3814, + "data_source": "SPAR-Bench", + "question": "With blinds's (red point) depth at 1.8, calculate the depth difference between monitor (green point) and post-it (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003814/000.jpg", + "spar_bench/sample_003814/001.jpg", + "spar_bench/sample_003814/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3815, + "data_source": "SPAR-Bench", + "question": "Based on desk lamp's (red point) depth of 0.8, compute the relative depth difference between laboratory bench (green point) and SPLIT (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003815/000.jpg", + "spar_bench/sample_003815/001.jpg", + "spar_bench/sample_003815/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3816, + "data_source": "SPAR-Bench", + "question": "The known depth of cardboard box (red point) is 0.8. Calculate how much difference in depth there is between cardboard box (green point) and cardboard box (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003816/000.jpg", + "spar_bench/sample_003816/001.jpg", + "spar_bench/sample_003816/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3817, + "data_source": "SPAR-Bench", + "question": "If the depth of power sockets (red point) is known to be 1.7, calculate the depth difference between power socket (green point) and mouse (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003817/000.jpg", + "spar_bench/sample_003817/001.jpg", + "spar_bench/sample_003817/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3818, + "data_source": "SPAR-Bench", + "question": "With chair's (red point) depth at 2.9, calculate the depth difference between split (green point) and chair (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003818/000.jpg", + "spar_bench/sample_003818/001.jpg", + "spar_bench/sample_003818/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3819, + "data_source": "SPAR-Bench", + "question": "Using whiteboard (red point) with a depth of 6.8, compute the absolute depth difference in meters between cabinet (green point) and table (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003819/000.jpg", + "spar_bench/sample_003819/001.jpg", + "spar_bench/sample_003819/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3820, + "data_source": "SPAR-Bench", + "question": "The known depth of joined tables (red point) is 5.2. Calculate how much difference in depth there is between table (green point) and computer tower (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003820/000.jpg", + "spar_bench/sample_003820/001.jpg", + "spar_bench/sample_003820/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3821, + "data_source": "SPAR-Bench", + "question": "The known depth of power socket (red point) is 5.4. Calculate how much difference in depth there is between light switch (green point) and chair (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003821/000.jpg", + "spar_bench/sample_003821/001.jpg", + "spar_bench/sample_003821/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3822, + "data_source": "SPAR-Bench", + "question": "With cabinet (red point) at a depth of 1.5, calculate the depth difference (in meters) between kitchen cabinet (green point) and paper towels (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003822/000.jpg", + "spar_bench/sample_003822/001.jpg", + "spar_bench/sample_003822/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3823, + "data_source": "SPAR-Bench", + "question": "Using office chair (red point) with a depth of 2.3, compute the absolute depth difference in meters between cup (green point) and table (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003823/000.jpg", + "spar_bench/sample_003823/001.jpg", + "spar_bench/sample_003823/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3824, + "data_source": "SPAR-Bench", + "question": "The depth of panel (red point) is given as 1.3. Find the absolute depth difference in meters between rolling chair (green point) and trash can (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003824/000.jpg", + "spar_bench/sample_003824/001.jpg", + "spar_bench/sample_003824/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3825, + "data_source": "SPAR-Bench", + "question": "If the depth of keyboard (red point) is 0.9, determine the absolute depth difference between rolling chair (green point) and trash can (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003825/000.jpg", + "spar_bench/sample_003825/001.jpg", + "spar_bench/sample_003825/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3826, + "data_source": "SPAR-Bench", + "question": "If the depth of chair (red point) is 3.9, determine the absolute depth difference between pillar (green point) and soap dispenser (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003826/000.jpg", + "spar_bench/sample_003826/001.jpg", + "spar_bench/sample_003826/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3827, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between table (green point) and table (blue point) if the depth of joined tables (red point) is 1.6? State the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003827/000.jpg", + "spar_bench/sample_003827/001.jpg", + "spar_bench/sample_003827/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3828, + "data_source": "SPAR-Bench", + "question": "Given that outlet (red point) is at a depth of 2.6, calculate the absolute depth difference between chair (green point) and paper (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003828/000.jpg", + "spar_bench/sample_003828/001.jpg", + "spar_bench/sample_003828/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3829, + "data_source": "SPAR-Bench", + "question": "Given that toilet paper (red point) has a depth of 3.0, determine the absolute depth difference between bluetooth speaker (green point) and eraser (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003829/000.jpg", + "spar_bench/sample_003829/001.jpg", + "spar_bench/sample_003829/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3830, + "data_source": "SPAR-Bench", + "question": "With paper (red point) at a known depth of 3.0, what is the absolute depth difference between paper (green point) and paper (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003830/000.jpg", + "spar_bench/sample_003830/001.jpg", + "spar_bench/sample_003830/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3831, + "data_source": "SPAR-Bench", + "question": "The known depth of knife set (red point) is 1.2. Calculate the absolute difference in depth (in meters) between kitchen counter (green point) and plate (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003831/000.jpg", + "spar_bench/sample_003831/001.jpg", + "spar_bench/sample_003831/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3832, + "data_source": "SPAR-Bench", + "question": "If storage cabinet (red point) is at a depth of 3.7, what is the depth difference between desk (green point) and desk (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003832/000.jpg", + "spar_bench/sample_003832/001.jpg", + "spar_bench/sample_003832/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3833, + "data_source": "SPAR-Bench", + "question": "Assume the depth of bicycle (red point) is 2.8. What is the depth difference between cabinet (green point) and power socket (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003833/000.jpg", + "spar_bench/sample_003833/001.jpg", + "spar_bench/sample_003833/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3834, + "data_source": "SPAR-Bench", + "question": "If counter (red point) is at a depth of 0.4, what is the depth difference between tap (green point) and towel (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003834/000.jpg", + "spar_bench/sample_003834/001.jpg", + "spar_bench/sample_003834/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3835, + "data_source": "SPAR-Bench", + "question": "Assume the depth of shelf (red point) is -0.6. How much difference in depth is there between power socket (green point) and paper (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003835/000.jpg", + "spar_bench/sample_003835/001.jpg", + "spar_bench/sample_003835/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3836, + "data_source": "SPAR-Bench", + "question": "The known depth of cabinet (red point) is 1.7. What is the absolute depth difference between the objects office chair (green point) and trash bin (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003836/000.jpg", + "spar_bench/sample_003836/001.jpg", + "spar_bench/sample_003836/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3837, + "data_source": "SPAR-Bench", + "question": "Given that printer (red point) has a depth of 1.0, determine the absolute depth difference between pillar (green point) and office chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003837/000.jpg", + "spar_bench/sample_003837/001.jpg", + "spar_bench/sample_003837/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3838, + "data_source": "SPAR-Bench", + "question": "The depth of blackboard (red point) is known to be 4.8. Calculate the absolute value of the depth difference in meters between telephone (green point) and pillar (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003838/000.jpg", + "spar_bench/sample_003838/001.jpg", + "spar_bench/sample_003838/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3839, + "data_source": "SPAR-Bench", + "question": "If shoe (red point) is at a depth of 2.8, compute the absolute depth difference between piano chair (green point) and bottle (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003839/000.jpg", + "spar_bench/sample_003839/001.jpg", + "spar_bench/sample_003839/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3840, + "data_source": "SPAR-Bench", + "question": "Assume office chair (red point) has a depth of 2.9. How far apart in depth are window (green point) and mouse (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003840/000.jpg", + "spar_bench/sample_003840/001.jpg", + "spar_bench/sample_003840/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3841, + "data_source": "SPAR-Bench", + "question": "If the depth of paper (red point) is given as 2.1, how far apart in depth are monitor (green point) and bedframe (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003841/000.jpg", + "spar_bench/sample_003841/001.jpg", + "spar_bench/sample_003841/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3842, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between paper (green point) and book (blue point), given that table (red point) is at a depth of 1.8? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003842/000.jpg", + "spar_bench/sample_003842/001.jpg", + "spar_bench/sample_003842/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3843, + "data_source": "SPAR-Bench", + "question": "The depth of window frame (red point) is known to be 4.7. Calculate the absolute value of the depth difference in meters between box (green point) and box (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003843/000.jpg", + "spar_bench/sample_003843/001.jpg", + "spar_bench/sample_003843/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3844, + "data_source": "SPAR-Bench", + "question": "Assume the depth of stool (red point) is 1.9. What is the depth difference between beanbag (green point) and stool (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003844/000.jpg", + "spar_bench/sample_003844/001.jpg", + "spar_bench/sample_003844/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3845, + "data_source": "SPAR-Bench", + "question": "The depth of book (red point) is known to be 2.5. Calculate the absolute value of the depth difference in meters between cabinet (green point) and book (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003845/000.jpg", + "spar_bench/sample_003845/001.jpg", + "spar_bench/sample_003845/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3846, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference between printer (green point) and window frame (blue point) if the depth of table (red point) is 0.8? State the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003846/000.jpg", + "spar_bench/sample_003846/001.jpg", + "spar_bench/sample_003846/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3847, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between chair (green point) and chair (blue point), given that chair (red point) is at a depth of 4.3? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003847/000.jpg", + "spar_bench/sample_003847/001.jpg", + "spar_bench/sample_003847/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3848, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between table (green point) and split (blue point), given that power socket (red point) is at a depth of 1.8? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003848/000.jpg", + "spar_bench/sample_003848/001.jpg", + "spar_bench/sample_003848/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3849, + "data_source": "SPAR-Bench", + "question": "If the depth of paper (red point) is 1.0, determine the absolute depth difference between pan set (green point) and shelf (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003849/000.jpg", + "spar_bench/sample_003849/001.jpg", + "spar_bench/sample_003849/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3850, + "data_source": "SPAR-Bench", + "question": "Using refrigerator (red point) with a depth of 1.4, compute the absolute depth difference between light switch (green point) and whiteboard (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003850/000.jpg", + "spar_bench/sample_003850/001.jpg", + "spar_bench/sample_003850/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3851, + "data_source": "SPAR-Bench", + "question": "Given that chair (red point) is at a depth of 4.2, calculate the absolute depth difference between heater (green point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003851/000.jpg", + "spar_bench/sample_003851/001.jpg", + "spar_bench/sample_003851/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3852, + "data_source": "SPAR-Bench", + "question": "Using office chair (red point) with a depth of 4.5, compute the absolute depth difference in meters between table (green point) and table (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003852/000.jpg", + "spar_bench/sample_003852/001.jpg", + "spar_bench/sample_003852/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3853, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is given as 2.1. Find the absolute depth difference in meters between water kettle (green point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003853/000.jpg", + "spar_bench/sample_003853/001.jpg", + "spar_bench/sample_003853/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3854, + "data_source": "SPAR-Bench", + "question": "Given that bottle (red point) has a depth of 2.9, calculate the absolute value of the depth difference between power socket (green point) and bottle (blue point). Express the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003854/000.jpg", + "spar_bench/sample_003854/001.jpg", + "spar_bench/sample_003854/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3855, + "data_source": "SPAR-Bench", + "question": "If the depth of outlet (red point) is set at 2.6, how far apart in depth are objects windowframe (green point) and picture (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003855/000.jpg", + "spar_bench/sample_003855/001.jpg", + "spar_bench/sample_003855/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3856, + "data_source": "SPAR-Bench", + "question": "The known depth of bedframe (red point) is 1.6. Calculate how much difference in depth there is between monitor (green point) and window (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003856/000.jpg", + "spar_bench/sample_003856/001.jpg", + "spar_bench/sample_003856/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3857, + "data_source": "SPAR-Bench", + "question": "If the depth of bottle (red point) is 0.7, calculate the absolute depth difference in meters between shower curtain (green point) and tap (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003857/000.jpg", + "spar_bench/sample_003857/001.jpg", + "spar_bench/sample_003857/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3858, + "data_source": "SPAR-Bench", + "question": "If pillow (red point) is at a depth of 5.1, what is the depth difference between tv (green point) and yoga mat (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003858/000.jpg", + "spar_bench/sample_003858/001.jpg", + "spar_bench/sample_003858/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3859, + "data_source": "SPAR-Bench", + "question": "If headboard (red point) is at a depth of 1.0, calculate the absolute depth difference between picture (green point) and bedside counter (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003859/000.jpg", + "spar_bench/sample_003859/001.jpg", + "spar_bench/sample_003859/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3860, + "data_source": "SPAR-Bench", + "question": "Based on trash bin's (red point) depth of 0.8, compute the relative depth difference between kitchen counter (green point) and kitchen cabinet (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003860/000.jpg", + "spar_bench/sample_003860/001.jpg", + "spar_bench/sample_003860/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3861, + "data_source": "SPAR-Bench", + "question": "Using cosmetic bag (red point) as a reference with a depth of 1.6, determine how far apart in depth curtain rod (green point) and plate (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003861/000.jpg", + "spar_bench/sample_003861/001.jpg", + "spar_bench/sample_003861/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3862, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between ottoman chair (green point) and cushion (blue point), given that sofa (red point) is at a depth of 3.8? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003862/000.jpg", + "spar_bench/sample_003862/001.jpg", + "spar_bench/sample_003862/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3863, + "data_source": "SPAR-Bench", + "question": "The known depth of objects (red point) is 2.4. What is the absolute depth difference between the objects coat hanger (green point) and electrical duct (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003863/000.jpg", + "spar_bench/sample_003863/001.jpg", + "spar_bench/sample_003863/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3864, + "data_source": "SPAR-Bench", + "question": "Using the depth of outlet (red point) as 2.4, determine the absolute difference in depth between windowframe (green point) and window (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003864/000.jpg", + "spar_bench/sample_003864/001.jpg", + "spar_bench/sample_003864/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3865, + "data_source": "SPAR-Bench", + "question": "Assume the depth of intercom device (red point) is 3.8. How much deeper or shallower is clothes (green point) relative to shoes (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003865/000.jpg", + "spar_bench/sample_003865/001.jpg", + "spar_bench/sample_003865/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3866, + "data_source": "SPAR-Bench", + "question": "Given that box (red point) has a depth of 3.1, determine the absolute depth difference between box (green point) and pillow (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003866/000.jpg", + "spar_bench/sample_003866/001.jpg", + "spar_bench/sample_003866/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3867, + "data_source": "SPAR-Bench", + "question": "Given that utensils (red point) is at a depth of 2.0, calculate the absolute depth difference between window frame (green point) and sink (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003867/000.jpg", + "spar_bench/sample_003867/001.jpg", + "spar_bench/sample_003867/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3868, + "data_source": "SPAR-Bench", + "question": "The depth of box (red point) is 1.7. Use this reference to find the absolute depth difference between power socket (green point) and bath cabinet (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003868/000.jpg", + "spar_bench/sample_003868/001.jpg", + "spar_bench/sample_003868/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3869, + "data_source": "SPAR-Bench", + "question": "If the depth of paper stapler (red point) is set at 1.6, how far apart in depth are objects board (green point) and board (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003869/000.jpg", + "spar_bench/sample_003869/001.jpg", + "spar_bench/sample_003869/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3870, + "data_source": "SPAR-Bench", + "question": "The depth of cardboard box (red point) is given as 1.7. Find the absolute depth difference in meters between storage cabinet (green point) and SPLIT (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003870/000.jpg", + "spar_bench/sample_003870/001.jpg", + "spar_bench/sample_003870/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3871, + "data_source": "SPAR-Bench", + "question": "The depth of washing machine (red point) is 1.0. Use this information to find the absolute depth difference between sink (green point) and mirror lamp (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003871/000.jpg", + "spar_bench/sample_003871/001.jpg", + "spar_bench/sample_003871/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3872, + "data_source": "SPAR-Bench", + "question": "The depth of kitchen cabinet (red point) is 1.2. Determine the absolute depth difference between kitchen counter (green point) and chopping board (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003872/000.jpg", + "spar_bench/sample_003872/001.jpg", + "spar_bench/sample_003872/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3873, + "data_source": "SPAR-Bench", + "question": "The known depth of chair (red point) is 1.7. Calculate how much difference in depth there is between sofa (green point) and chair (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003873/000.jpg", + "spar_bench/sample_003873/001.jpg", + "spar_bench/sample_003873/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3874, + "data_source": "SPAR-Bench", + "question": "If box (red point) is at a depth of 2.7, what is the depth difference between pedestal fan (green point) and trash bin (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003874/000.jpg", + "spar_bench/sample_003874/001.jpg", + "spar_bench/sample_003874/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3875, + "data_source": "SPAR-Bench", + "question": "If book (red point) has a depth of 2.7, calculate the difference in depth between chair (green point) and book (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003875/000.jpg", + "spar_bench/sample_003875/001.jpg", + "spar_bench/sample_003875/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3876, + "data_source": "SPAR-Bench", + "question": "If the depth of book (red point) is 1.8, determine the absolute depth difference between book (green point) and multiplug (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003876/000.jpg", + "spar_bench/sample_003876/001.jpg", + "spar_bench/sample_003876/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3877, + "data_source": "SPAR-Bench", + "question": "Using magnets (red point) with a known depth of 1.1, calculate the absolute value of the depth difference between chair (green point) and crate (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003877/000.jpg", + "spar_bench/sample_003877/001.jpg", + "spar_bench/sample_003877/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3878, + "data_source": "SPAR-Bench", + "question": "If whiteboard (red point) is at a depth of 3.5, compute the depth difference between sofa (green point) and picture (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003878/000.jpg", + "spar_bench/sample_003878/001.jpg", + "spar_bench/sample_003878/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3879, + "data_source": "SPAR-Bench", + "question": "If the depth of power socket (red point) is 2.5, calculate the absolute depth difference in meters between telephone (green point) and pillar (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003879/000.jpg", + "spar_bench/sample_003879/001.jpg", + "spar_bench/sample_003879/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3880, + "data_source": "SPAR-Bench", + "question": "With kitchen counter (red point) at a known depth of 0.2, what is the absolute depth difference between dishwasher (green point) and knife set (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003880/000.jpg", + "spar_bench/sample_003880/001.jpg", + "spar_bench/sample_003880/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3881, + "data_source": "SPAR-Bench", + "question": "Using keyboard (red point) as a reference with a depth of 2.2, determine how far apart in depth powerstrip (green point) and desk (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003881/000.jpg", + "spar_bench/sample_003881/001.jpg", + "spar_bench/sample_003881/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3882, + "data_source": "SPAR-Bench", + "question": "Given that tools (red point) is at a depth of 1.6, calculate the absolute depth difference between cabinet (green point) and machine (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003882/000.jpg", + "spar_bench/sample_003882/001.jpg", + "spar_bench/sample_003882/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3883, + "data_source": "SPAR-Bench", + "question": "With paper stapler (red point) at a depth of 1.5, calculate the depth difference (absolute value) between board (green point) and copier (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003883/000.jpg", + "spar_bench/sample_003883/001.jpg", + "spar_bench/sample_003883/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3884, + "data_source": "SPAR-Bench", + "question": "If book (red point) has a depth of 2.1, calculate the difference in depth between chair (green point) and book (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003884/000.jpg", + "spar_bench/sample_003884/001.jpg", + "spar_bench/sample_003884/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3885, + "data_source": "SPAR-Bench", + "question": "The depth of cardbox (red point) is 3.7. Using this reference, what is the absolute depth difference in meters between pipe (green point) and pipe (blue point)? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003885/000.jpg", + "spar_bench/sample_003885/001.jpg", + "spar_bench/sample_003885/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3886, + "data_source": "SPAR-Bench", + "question": "The depth of box (red point) is given as 1.3. Find the absolute depth difference in meters between cabinet (green point) and cup (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003886/000.jpg", + "spar_bench/sample_003886/001.jpg", + "spar_bench/sample_003886/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3887, + "data_source": "SPAR-Bench", + "question": "If the depth of picture (red point) is set at 2.2, how far apart in depth are objects wardrobe (green point) and delivery bag (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003887/000.jpg", + "spar_bench/sample_003887/001.jpg", + "spar_bench/sample_003887/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3888, + "data_source": "SPAR-Bench", + "question": "Assume SPLIT (red point) has a depth of 0.2. What is the difference in depth between coax outlet (green point) and box (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003888/000.jpg", + "spar_bench/sample_003888/001.jpg", + "spar_bench/sample_003888/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3889, + "data_source": "SPAR-Bench", + "question": "If SPLIT (red point) has a depth of 6.5, calculate the difference in depth between chair (green point) and chair (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003889/000.jpg", + "spar_bench/sample_003889/001.jpg", + "spar_bench/sample_003889/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3890, + "data_source": "SPAR-Bench", + "question": "If the depth of bookshelf (red point) is 1.6, calculate the absolute depth difference in meters between book (green point) and desk (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003890/000.jpg", + "spar_bench/sample_003890/001.jpg", + "spar_bench/sample_003890/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3891, + "data_source": "SPAR-Bench", + "question": "Given that plastic case (red point) is at a depth of 1.2, calculate the absolute depth difference between laboratory bench (green point) and soldering iron (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003891/000.jpg", + "spar_bench/sample_003891/001.jpg", + "spar_bench/sample_003891/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3892, + "data_source": "SPAR-Bench", + "question": "The known depth of mug (red point) is 2.5. What is the absolute depth difference between the objects paper (green point) and package (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003892/000.jpg", + "spar_bench/sample_003892/001.jpg", + "spar_bench/sample_003892/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3893, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between cup (green point) and tray (blue point), given that kitchen counter (red point) is at a depth of 0.4? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003893/000.jpg", + "spar_bench/sample_003893/001.jpg", + "spar_bench/sample_003893/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3894, + "data_source": "SPAR-Bench", + "question": "Assume table (red point) has a depth of 1.1. How far apart in depth are printer (green point) and keyboard (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003894/000.jpg", + "spar_bench/sample_003894/001.jpg", + "spar_bench/sample_003894/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3895, + "data_source": "SPAR-Bench", + "question": "Using utensils (red point) with a depth of 2.2, compute the absolute depth difference in meters between serving trolley (green point) and container (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003895/000.jpg", + "spar_bench/sample_003895/001.jpg", + "spar_bench/sample_003895/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3896, + "data_source": "SPAR-Bench", + "question": "Given that picture (red point) has a depth of 1.6, determine the absolute depth difference between kitchen cabinet (green point) and bag (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003896/000.jpg", + "spar_bench/sample_003896/001.jpg", + "spar_bench/sample_003896/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3897, + "data_source": "SPAR-Bench", + "question": "Given that box (red point) is at a depth of 1.5, calculate the absolute depth difference between bluetooth speaker (green point) and trash can (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003897/000.jpg", + "spar_bench/sample_003897/001.jpg", + "spar_bench/sample_003897/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3898, + "data_source": "SPAR-Bench", + "question": "Using the depth of power socket (red point) as 2.6, find the absolute difference in depth between shelf (green point) and chair (blue point). State the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003898/000.jpg", + "spar_bench/sample_003898/001.jpg", + "spar_bench/sample_003898/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3899, + "data_source": "SPAR-Bench", + "question": "Using bottle (red point) as a reference with a depth of 3.0, determine how far apart in depth power socket (green point) and bottle (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003899/000.jpg", + "spar_bench/sample_003899/001.jpg", + "spar_bench/sample_003899/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3900, + "data_source": "SPAR-Bench", + "question": "The depth of box (red point) is 2.7. Use this reference to find the absolute depth difference between picture (green point) and bag (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003900/000.jpg", + "spar_bench/sample_003900/001.jpg", + "spar_bench/sample_003900/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3901, + "data_source": "SPAR-Bench", + "question": "Given that box (red point) has a depth of 2.1, determine the absolute depth difference between power sockets (green point) and cable duct (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003901/000.jpg", + "spar_bench/sample_003901/001.jpg", + "spar_bench/sample_003901/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3902, + "data_source": "SPAR-Bench", + "question": "The known depth of power socket (red point) is 1.3. Calculate the absolute difference in depth (in meters) between kitchen cabinet (green point) and egg carton (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003902/000.jpg", + "spar_bench/sample_003902/001.jpg", + "spar_bench/sample_003902/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3903, + "data_source": "SPAR-Bench", + "question": "The depth of box (red point) is 4.5. Using this as a reference, find the depth difference between office chair (green point) and window (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003903/000.jpg", + "spar_bench/sample_003903/001.jpg", + "spar_bench/sample_003903/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3904, + "data_source": "SPAR-Bench", + "question": "Knowing that the depth of structure (red point) is 2.8, how much difference in depth is there between picture (green point) and reflection (blue point)? Provide the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003904/000.jpg", + "spar_bench/sample_003904/001.jpg", + "spar_bench/sample_003904/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3905, + "data_source": "SPAR-Bench", + "question": "Assume chair (red point) has a depth of 1.2. What is the difference in depth between decoration (green point) and plant (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003905/000.jpg", + "spar_bench/sample_003905/001.jpg", + "spar_bench/sample_003905/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3906, + "data_source": "SPAR-Bench", + "question": "The depth of pen (red point) is 1.1. Using this as a reference, find the depth difference between cable (green point) and pen (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003906/000.jpg", + "spar_bench/sample_003906/001.jpg", + "spar_bench/sample_003906/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3907, + "data_source": "SPAR-Bench", + "question": "If bookshelf (red point) is at a depth of 1.7, calculate the absolute depth difference between books (green point) and books (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003907/000.jpg", + "spar_bench/sample_003907/001.jpg", + "spar_bench/sample_003907/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3908, + "data_source": "SPAR-Bench", + "question": "Given that the depth of table (red point) is 3.8, find the depth difference (absolute value) between light switch (green point) and table (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003908/000.jpg", + "spar_bench/sample_003908/001.jpg", + "spar_bench/sample_003908/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3909, + "data_source": "SPAR-Bench", + "question": "If chair (red point) is at a depth of 4.5, what is the depth difference between cabinet (green point) and box (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003909/000.jpg", + "spar_bench/sample_003909/001.jpg", + "spar_bench/sample_003909/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3910, + "data_source": "SPAR-Bench", + "question": "Using kitchen counter (red point) with a known depth of 0.2, calculate the absolute value of the depth difference between dishwasher (green point) and chopping board (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003910/000.jpg", + "spar_bench/sample_003910/001.jpg", + "spar_bench/sample_003910/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3911, + "data_source": "SPAR-Bench", + "question": "Assume cushion (red point) has a depth of 7.6. How far apart in depth are table (green point) and mug (blue point), measured in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003911/000.jpg", + "spar_bench/sample_003911/001.jpg", + "spar_bench/sample_003911/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3912, + "data_source": "SPAR-Bench", + "question": "The depth of trash can (red point) is 1.6. Use this reference to find the absolute depth difference between rolling chair (green point) and window (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003912/000.jpg", + "spar_bench/sample_003912/001.jpg", + "spar_bench/sample_003912/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3913, + "data_source": "SPAR-Bench", + "question": "Using the depth of picture (red point) as 2.0, find the absolute difference in depth between sofa (green point) and chair (blue point). State the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003913/000.jpg", + "spar_bench/sample_003913/001.jpg", + "spar_bench/sample_003913/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3914, + "data_source": "SPAR-Bench", + "question": "Using picture (red point) with a depth of 2.3, compute the absolute depth difference in meters between jacket (green point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003914/000.jpg", + "spar_bench/sample_003914/001.jpg", + "spar_bench/sample_003914/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3915, + "data_source": "SPAR-Bench", + "question": "Assume office chair (red point) has a depth of 3.3. How much difference in depth exists between cabinet (green point) and table (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003915/000.jpg", + "spar_bench/sample_003915/001.jpg", + "spar_bench/sample_003915/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3916, + "data_source": "SPAR-Bench", + "question": "Using computer tower (red point) with a depth of 1.6, compute the absolute depth difference between computer tower (green point) and computer tower (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003916/000.jpg", + "spar_bench/sample_003916/001.jpg", + "spar_bench/sample_003916/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3917, + "data_source": "SPAR-Bench", + "question": "With alligator clips (red point) at a depth of 1.9, calculate the depth difference (in meters) between laboratory bench (green point) and water pipe (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003917/000.jpg", + "spar_bench/sample_003917/001.jpg", + "spar_bench/sample_003917/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3918, + "data_source": "SPAR-Bench", + "question": "The known depth of towel (red point) is 1.7. What is the absolute depth difference between the objects cabinet (green point) and knife (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003918/000.jpg", + "spar_bench/sample_003918/001.jpg", + "spar_bench/sample_003918/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3919, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between table (green point) and book (blue point), given that laptop (red point) is at a depth of 2.4? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003919/000.jpg", + "spar_bench/sample_003919/001.jpg", + "spar_bench/sample_003919/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3920, + "data_source": "SPAR-Bench", + "question": "If the depth of blinds (red point) is set at 1.8, how far apart in depth are objects monitor (green point) and pliers (blue point)? Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003920/000.jpg", + "spar_bench/sample_003920/001.jpg", + "spar_bench/sample_003920/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3921, + "data_source": "SPAR-Bench", + "question": "The depth of kitchen brush (red point) is known to be 2.2. Calculate the absolute value of the depth difference in meters between wardrobe (green point) and plate (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003921/000.jpg", + "spar_bench/sample_003921/001.jpg", + "spar_bench/sample_003921/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3922, + "data_source": "SPAR-Bench", + "question": "With telephone (red point) at a known depth of 2.8, what is the absolute depth difference between SPLIT (green point) and pipe (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003922/000.jpg", + "spar_bench/sample_003922/001.jpg", + "spar_bench/sample_003922/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3923, + "data_source": "SPAR-Bench", + "question": "The depth of kitchen towel (red point) is set to 0.9. What is the absolute depth difference in meters between kitchen counter (green point) and plate (blue point)? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003923/000.jpg", + "spar_bench/sample_003923/001.jpg", + "spar_bench/sample_003923/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3924, + "data_source": "SPAR-Bench", + "question": "The known depth of cabinet (red point) is 1.1. Calculate how much difference in depth there is between remove (green point) and box (blue point), measured in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003924/000.jpg", + "spar_bench/sample_003924/001.jpg", + "spar_bench/sample_003924/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3925, + "data_source": "SPAR-Bench", + "question": "The known depth of footstool (red point) is 1.7. Using this as a reference, calculate the absolute depth difference between rolling chair (green point) and monitor (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003925/000.jpg", + "spar_bench/sample_003925/001.jpg", + "spar_bench/sample_003925/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3926, + "data_source": "SPAR-Bench", + "question": "Given that the depth of table (red point) is 4.8, find the depth difference (absolute value) between sink (green point) and toilet paper (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003926/000.jpg", + "spar_bench/sample_003926/001.jpg", + "spar_bench/sample_003926/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3927, + "data_source": "SPAR-Bench", + "question": "Given that table (red point) has a depth of 0.4, calculate the absolute value of the depth difference between chair (green point) and shelf (blue point). Express the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003927/000.jpg", + "spar_bench/sample_003927/001.jpg", + "spar_bench/sample_003927/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3928, + "data_source": "SPAR-Bench", + "question": "The depth of light switch (red point) is 1.7. Determine the absolute depth difference between whiteboard (green point) and standing fan (blue point), with the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003928/000.jpg", + "spar_bench/sample_003928/001.jpg", + "spar_bench/sample_003928/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3929, + "data_source": "SPAR-Bench", + "question": "Using chair (red point) with a depth of 1.5, compute the absolute depth difference between whiteboard (green point) and table (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003929/000.jpg", + "spar_bench/sample_003929/001.jpg", + "spar_bench/sample_003929/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3930, + "data_source": "SPAR-Bench", + "question": "If the depth of toilet paper dispenser (red point) is 1.1, determine the absolute depth difference between toilet (green point) and toilet brush (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003930/000.jpg", + "spar_bench/sample_003930/001.jpg", + "spar_bench/sample_003930/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3931, + "data_source": "SPAR-Bench", + "question": "Given that armchair (red point) has a depth of 1.0, calculate the absolute value of the depth difference between table mat (green point) and plant pot (blue point). Express the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003931/000.jpg", + "spar_bench/sample_003931/001.jpg", + "spar_bench/sample_003931/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3932, + "data_source": "SPAR-Bench", + "question": "Using shampoo bottle (red point) with a depth of 2.2, compute the absolute depth difference between toilet paper holder (green point) and bottle (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_003932/000.jpg", + "spar_bench/sample_003932/001.jpg", + "spar_bench/sample_003932/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3933, + "data_source": "SPAR-Bench", + "question": "What is the absolute depth difference in meters between cardboard (green point) and pipe (blue point), given that structure (red point) is at a depth of 1.6? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003933/000.jpg", + "spar_bench/sample_003933/001.jpg", + "spar_bench/sample_003933/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3934, + "data_source": "SPAR-Bench", + "question": "Using chair (red point) as a reference with a depth of 3.9, determine how far apart in depth chair (green point) and chair (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003934/000.jpg", + "spar_bench/sample_003934/001.jpg", + "spar_bench/sample_003934/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3935, + "data_source": "SPAR-Bench", + "question": "Using monitor (red point) with a depth of 1.2, compute the absolute depth difference between desk (green point) and desk (blue point). Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003935/000.jpg", + "spar_bench/sample_003935/001.jpg", + "spar_bench/sample_003935/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3936, + "data_source": "SPAR-Bench", + "question": "With arm chair (red point) at a depth of 2.7, calculate the depth difference (in meters) between box (green point) and monitor (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003936/000.jpg", + "spar_bench/sample_003936/001.jpg", + "spar_bench/sample_003936/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3937, + "data_source": "SPAR-Bench", + "question": "Using knife set (red point) with a known depth of 0.8, calculate the absolute value of the depth difference between kitchen counter (green point) and shelf (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003937/000.jpg", + "spar_bench/sample_003937/001.jpg", + "spar_bench/sample_003937/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3938, + "data_source": "SPAR-Bench", + "question": "The depth of switch (red point) is given as 2.7. Calculate how far apart in depth cup (green point) and office chair (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003938/000.jpg", + "spar_bench/sample_003938/001.jpg", + "spar_bench/sample_003938/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3939, + "data_source": "SPAR-Bench", + "question": "Using the depth of bottle (red point) as 2.1, find the absolute difference in depth between shower curtain (green point) and tap (blue point). State the result in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003939/000.jpg", + "spar_bench/sample_003939/001.jpg", + "spar_bench/sample_003939/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3940, + "data_source": "SPAR-Bench", + "question": "The depth of tray (red point) is given as 1.8. Calculate how far apart in depth serving trolley (green point) and shelf (blue point) are from each other in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003940/000.jpg", + "spar_bench/sample_003940/001.jpg", + "spar_bench/sample_003940/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3941, + "data_source": "SPAR-Bench", + "question": "The depth of chair (red point) is 1.9. Use this reference to find the absolute depth difference between sofa (green point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003941/000.jpg", + "spar_bench/sample_003941/001.jpg", + "spar_bench/sample_003941/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3942, + "data_source": "SPAR-Bench", + "question": "Assume first aid box (red point) has a depth of 6.7. What is the difference in depth between office chair (green point) and box (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003942/000.jpg", + "spar_bench/sample_003942/001.jpg", + "spar_bench/sample_003942/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3943, + "data_source": "SPAR-Bench", + "question": "If the depth of kitchen counter (red point) is 1.9, determine the absolute depth difference between cabinet (green point) and window (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003943/000.jpg", + "spar_bench/sample_003943/001.jpg", + "spar_bench/sample_003943/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3944, + "data_source": "SPAR-Bench", + "question": "What is the depth difference, measured in meters, between cabinet (green point) and electrical pipe (blue point), given that sink pipe (red point) is at a depth of 2.1? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003944/000.jpg", + "spar_bench/sample_003944/001.jpg", + "spar_bench/sample_003944/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3945, + "data_source": "SPAR-Bench", + "question": "Assume bathroom cabinet (red point) has a depth of 1.2. How much difference in depth exists between sink (green point) and window (blue point), expressed in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_003945/000.jpg", + "spar_bench/sample_003945/001.jpg", + "spar_bench/sample_003945/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3946, + "data_source": "SPAR-Bench", + "question": "If monitor (red point) is at a depth of 1.0, compute the depth difference between chair (green point) and book (blue point) as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003946/000.jpg", + "spar_bench/sample_003946/001.jpg", + "spar_bench/sample_003946/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3947, + "data_source": "SPAR-Bench", + "question": "If refrigerator (red point) is at a depth of 2.8, what is the depth difference between kitchen cabinet (green point) and kitchen cabinet (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003947/000.jpg", + "spar_bench/sample_003947/001.jpg", + "spar_bench/sample_003947/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3948, + "data_source": "SPAR-Bench", + "question": "The depth of window sill (red point) is known to be 1.7. Calculate the absolute value of the depth difference in meters between serving trolley (green point) and fridge (blue point). Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003948/000.jpg", + "spar_bench/sample_003948/001.jpg", + "spar_bench/sample_003948/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3949, + "data_source": "SPAR-Bench", + "question": "Assume the depth of light switch (red point) is 2.8. How much difference in depth is there between picture (green point) and bedside counter (blue point)? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003949/000.jpg", + "spar_bench/sample_003949/001.jpg", + "spar_bench/sample_003949/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3950, + "data_source": "SPAR-Bench", + "question": "If box (red point) is at a depth of 1.5, calculate the absolute depth difference between chair (green point) and chair (blue point). Answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_003950/000.jpg", + "spar_bench/sample_003950/001.jpg", + "spar_bench/sample_003950/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3951, + "data_source": "SPAR-Bench", + "question": "Given that the depth of coax socket (red point) is 0.7, find the depth difference (absolute value) between power strip (green point) and shelf (blue point) in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003951/000.jpg", + "spar_bench/sample_003951/001.jpg", + "spar_bench/sample_003951/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3952, + "data_source": "SPAR-Bench", + "question": "Using the depth of decoration (red point) as 2.0, determine the absolute difference in depth between foldable closet (green point) and plant (blue point). Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003952/000.jpg", + "spar_bench/sample_003952/001.jpg", + "spar_bench/sample_003952/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3953, + "data_source": "SPAR-Bench", + "question": "With book's (red point) depth at 0.7, calculate the depth difference between monitor (green point) and pillow (blue point), expressed as an absolute value in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003953/000.jpg", + "spar_bench/sample_003953/001.jpg", + "spar_bench/sample_003953/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3954, + "data_source": "SPAR-Bench", + "question": "Using power socket (red point) as a reference with a depth of 1.5, determine how far apart in depth board (green point) and SPLIT (blue point) are from each other. Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The depth is calculated based on the image where the markers corresponding to these objects are located. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003954/000.jpg", + "spar_bench/sample_003954/001.jpg", + "spar_bench/sample_003954/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 3955, + "data_source": "SPAR-Bench", + "question": "How far in meters is shower curtain (red point) from mirror (blue point) based on their centers in the images? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003955/000.jpg", + "spar_bench/sample_003955/001.jpg", + "spar_bench/sample_003955/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3956, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between box (red point) and bookshelf (blue point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003956/000.jpg", + "spar_bench/sample_003956/001.jpg", + "spar_bench/sample_003956/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3957, + "data_source": "SPAR-Bench", + "question": "What is the measured separation in meters between the center of box (red point) and the center of chair (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003957/000.jpg", + "spar_bench/sample_003957/001.jpg", + "spar_bench/sample_003957/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3958, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of chair and table? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003958/000.jpg", + "spar_bench/sample_003958/001.jpg", + "spar_bench/sample_003958/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3959, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking thermostat and recycling bin? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003959/000.jpg", + "spar_bench/sample_003959/001.jpg", + "spar_bench/sample_003959/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3960, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of papers (red point) and books (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003960/000.jpg", + "spar_bench/sample_003960/001.jpg", + "spar_bench/sample_003960/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3961, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of monitor (red point) and the center of monitor (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003961/000.jpg", + "spar_bench/sample_003961/001.jpg", + "spar_bench/sample_003961/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3962, + "data_source": "SPAR-Bench", + "question": "What is the numeric distance, in meters, between the centers of the red and blue points representing table and stool? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003962/000.jpg", + "spar_bench/sample_003962/001.jpg", + "spar_bench/sample_003962/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3963, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of window (red point) from the center of cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003963/000.jpg", + "spar_bench/sample_003963/001.jpg", + "spar_bench/sample_003963/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3964, + "data_source": "SPAR-Bench", + "question": "Can you calculate the Euclidean distance between the center of cabinet (red point) and the center of recycling bin (blue point) and provide it in meters? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003964/000.jpg", + "spar_bench/sample_003964/001.jpg", + "spar_bench/sample_003964/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3965, + "data_source": "SPAR-Bench", + "question": "What is the physical distance, in meters, from the center of sink (red point) to the center of stool (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_003965/000.jpg", + "spar_bench/sample_003965/001.jpg", + "spar_bench/sample_003965/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3966, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of power outlet (red point) and recycling bin (blue point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_003966/000.jpg", + "spar_bench/sample_003966/001.jpg", + "spar_bench/sample_003966/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3967, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of backpack (red point) and bag (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003967/000.jpg", + "spar_bench/sample_003967/001.jpg", + "spar_bench/sample_003967/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3968, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of display case and plant? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003968/000.jpg", + "spar_bench/sample_003968/001.jpg", + "spar_bench/sample_003968/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3969, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of picture (red point) to the center of window (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003969/000.jpg", + "spar_bench/sample_003969/001.jpg", + "spar_bench/sample_003969/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3970, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of box (red point) from the center of chair (blue point)? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003970/000.jpg", + "spar_bench/sample_003970/001.jpg", + "spar_bench/sample_003970/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3971, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of trash can (red point) and printer (blue point) in this images? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003971/000.jpg", + "spar_bench/sample_003971/001.jpg", + "spar_bench/sample_003971/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3972, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of table (red point) and the center of tv (blue point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003972/000.jpg", + "spar_bench/sample_003972/001.jpg", + "spar_bench/sample_003972/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3973, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of pillow (red point) and the center of lamp (blue point). Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003973/000.jpg", + "spar_bench/sample_003973/001.jpg", + "spar_bench/sample_003973/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3974, + "data_source": "SPAR-Bench", + "question": "What is the direct distance in meters between the red point of seating and the blue point of chair at their centers? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003974/000.jpg", + "spar_bench/sample_003974/001.jpg", + "spar_bench/sample_003974/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3975, + "data_source": "SPAR-Bench", + "question": "What is the length of the straight line, in meters, connecting the centers of laundry hamper (red point) and cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_003975/000.jpg", + "spar_bench/sample_003975/001.jpg", + "spar_bench/sample_003975/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3976, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of couch (red point) and armchair (blue point) in this images? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003976/000.jpg", + "spar_bench/sample_003976/001.jpg", + "spar_bench/sample_003976/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3977, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of chair (red point) from the center of chair (blue point)? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003977/000.jpg", + "spar_bench/sample_003977/001.jpg", + "spar_bench/sample_003977/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3978, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of trash can and radiator? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003978/000.jpg", + "spar_bench/sample_003978/001.jpg", + "spar_bench/sample_003978/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3979, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters from the red point representing couch to the blue point representing backpack? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003979/000.jpg", + "spar_bench/sample_003979/001.jpg", + "spar_bench/sample_003979/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3980, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of bathroom stall (red point) to bathroom stall door (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_003980/000.jpg", + "spar_bench/sample_003980/001.jpg", + "spar_bench/sample_003980/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3981, + "data_source": "SPAR-Bench", + "question": "How far away, in meters, is the center of couch (red point) from the center of coffee table (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003981/000.jpg", + "spar_bench/sample_003981/001.jpg", + "spar_bench/sample_003981/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3982, + "data_source": "SPAR-Bench", + "question": "What is the shortest distance in meters between the center of window (red point) and the center of mailboxes (blue point)? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_003982/000.jpg", + "spar_bench/sample_003982/001.jpg", + "spar_bench/sample_003982/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3983, + "data_source": "SPAR-Bench", + "question": "State the Euclidean distance in meters from the center of bookshelf (red point) to the center of bookshelf (blue point). Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003983/000.jpg", + "spar_bench/sample_003983/001.jpg", + "spar_bench/sample_003983/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3984, + "data_source": "SPAR-Bench", + "question": "What is the numeric distance, in meters, between the centers of the red and blue points representing table and chair? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003984/000.jpg", + "spar_bench/sample_003984/001.jpg", + "spar_bench/sample_003984/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3985, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking books and books? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_003985/000.jpg", + "spar_bench/sample_003985/001.jpg", + "spar_bench/sample_003985/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3986, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between chair and chair in the images? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003986/000.jpg", + "spar_bench/sample_003986/001.jpg", + "spar_bench/sample_003986/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3987, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of trash can (red point) and bench (blue point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003987/000.jpg", + "spar_bench/sample_003987/001.jpg", + "spar_bench/sample_003987/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3988, + "data_source": "SPAR-Bench", + "question": "Provide the distance in meters separating the center of toilet (red point) and the center of shower walls (blue point) in the images. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_003988/000.jpg", + "spar_bench/sample_003988/001.jpg", + "spar_bench/sample_003988/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3989, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of towel (red point) to toilet (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_003989/000.jpg", + "spar_bench/sample_003989/001.jpg", + "spar_bench/sample_003989/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3990, + "data_source": "SPAR-Bench", + "question": "What is the physical distance, in meters, from the center of chair (red point) to the center of chair (blue point) in the images? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_003990/000.jpg", + "spar_bench/sample_003990/001.jpg", + "spar_bench/sample_003990/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3991, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of sofa chair (red point) from the center of picture (blue point)? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_003991/000.jpg", + "spar_bench/sample_003991/001.jpg", + "spar_bench/sample_003991/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3992, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between cabinet and fan in the images? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003992/000.jpg", + "spar_bench/sample_003992/001.jpg", + "spar_bench/sample_003992/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3993, + "data_source": "SPAR-Bench", + "question": "How far away, in meters, is the center of chair (red point) from the center of chair (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_003993/000.jpg", + "spar_bench/sample_003993/001.jpg", + "spar_bench/sample_003993/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3994, + "data_source": "SPAR-Bench", + "question": "What is the length of the straight line, in meters, connecting the centers of toilet paper holder (red point) and shower walls (blue point)? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_003994/000.jpg", + "spar_bench/sample_003994/001.jpg", + "spar_bench/sample_003994/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3995, + "data_source": "SPAR-Bench", + "question": "What is the physical distance, in meters, from the center of chair (red point) to the center of table (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_003995/000.jpg", + "spar_bench/sample_003995/001.jpg", + "spar_bench/sample_003995/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3996, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of plastic containers to the blue center of bag in the images? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_003996/000.jpg", + "spar_bench/sample_003996/001.jpg", + "spar_bench/sample_003996/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3997, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of monitor (red point) and monitor (blue point) in this images? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_003997/000.jpg", + "spar_bench/sample_003997/001.jpg", + "spar_bench/sample_003997/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3998, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of thermostat (red point) and the center of monitor (blue point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_003998/000.jpg", + "spar_bench/sample_003998/001.jpg", + "spar_bench/sample_003998/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 3999, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of office chair (red point) from the center of chair (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_003999/000.jpg", + "spar_bench/sample_003999/001.jpg", + "spar_bench/sample_003999/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4000, + "data_source": "SPAR-Bench", + "question": "How far apart are the centers of wood (red point) and wood beam (blue point) in the images, measured in meters? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004000/000.jpg", + "spar_bench/sample_004000/001.jpg", + "spar_bench/sample_004000/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4001, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance from the center of dresser (red point) to the center of nightstand (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004001/000.jpg", + "spar_bench/sample_004001/001.jpg", + "spar_bench/sample_004001/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4002, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of trash can (red point) from the center of chair (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004002/000.jpg", + "spar_bench/sample_004002/001.jpg", + "spar_bench/sample_004002/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4003, + "data_source": "SPAR-Bench", + "question": "How far in meters is file cabinet (red point) from divider (blue point) based on their centers in the images? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004003/000.jpg", + "spar_bench/sample_004003/001.jpg", + "spar_bench/sample_004003/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4004, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of chair (red point) from the center of chair (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004004/000.jpg", + "spar_bench/sample_004004/001.jpg", + "spar_bench/sample_004004/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4005, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing backpack and pillow? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004005/000.jpg", + "spar_bench/sample_004005/001.jpg", + "spar_bench/sample_004005/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4006, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of sofa chair (red point) from the center of coffee table (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004006/000.jpg", + "spar_bench/sample_004006/001.jpg", + "spar_bench/sample_004006/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4007, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of dining table (red point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004007/000.jpg", + "spar_bench/sample_004007/001.jpg", + "spar_bench/sample_004007/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4008, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of shelf (red point) and the center of trash bin (blue point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004008/000.jpg", + "spar_bench/sample_004008/001.jpg", + "spar_bench/sample_004008/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4009, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center distance in meters between suitcase (red point) and bed (blue point) in the images? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004009/000.jpg", + "spar_bench/sample_004009/001.jpg", + "spar_bench/sample_004009/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4010, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of table (red point) to chair (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004010/000.jpg", + "spar_bench/sample_004010/001.jpg", + "spar_bench/sample_004010/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4011, + "data_source": "SPAR-Bench", + "question": "Calculate the Euclidean distance between chair (red point) and table (blue point) at their centers, expressed in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004011/000.jpg", + "spar_bench/sample_004011/001.jpg", + "spar_bench/sample_004011/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4012, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of rail (red point) to the center of toilet (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004012/000.jpg", + "spar_bench/sample_004012/001.jpg", + "spar_bench/sample_004012/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4013, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of shower curtain (red point) to the center of sink (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004013/000.jpg", + "spar_bench/sample_004013/001.jpg", + "spar_bench/sample_004013/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4014, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of board to the blue center of shelf in the images? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004014/000.jpg", + "spar_bench/sample_004014/001.jpg", + "spar_bench/sample_004014/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4015, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of cabinet (red point) from the center of trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004015/000.jpg", + "spar_bench/sample_004015/001.jpg", + "spar_bench/sample_004015/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4016, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing seat and chair? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004016/000.jpg", + "spar_bench/sample_004016/001.jpg", + "spar_bench/sample_004016/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4017, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the center of computer tower (red point) and the center of keyboard (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004017/000.jpg", + "spar_bench/sample_004017/001.jpg", + "spar_bench/sample_004017/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4018, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between box (red point) and bench (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004018/000.jpg", + "spar_bench/sample_004018/001.jpg", + "spar_bench/sample_004018/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4019, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of bottle to the blue center of bottle in the images? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004019/000.jpg", + "spar_bench/sample_004019/001.jpg", + "spar_bench/sample_004019/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4020, + "data_source": "SPAR-Bench", + "question": "What is the physical distance, in meters, from the center of stove (red point) to the center of kitchen cabinet (blue point) in the images? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004020/000.jpg", + "spar_bench/sample_004020/001.jpg", + "spar_bench/sample_004020/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4021, + "data_source": "SPAR-Bench", + "question": "What is the precise distance in meters from vending machine (red point) to vending machine (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004021/000.jpg", + "spar_bench/sample_004021/001.jpg", + "spar_bench/sample_004021/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4022, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the center of chair (red point) and the center of chair (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004022/000.jpg", + "spar_bench/sample_004022/001.jpg", + "spar_bench/sample_004022/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4023, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters between backpack (red point) and couch (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004023/000.jpg", + "spar_bench/sample_004023/001.jpg", + "spar_bench/sample_004023/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4024, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of washing machines (red point) and the center of trash can (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004024/000.jpg", + "spar_bench/sample_004024/001.jpg", + "spar_bench/sample_004024/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4025, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of window (red point) and chair (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004025/000.jpg", + "spar_bench/sample_004025/001.jpg", + "spar_bench/sample_004025/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4026, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of paper towel roll (red point) and the center of coffee kettle (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004026/000.jpg", + "spar_bench/sample_004026/001.jpg", + "spar_bench/sample_004026/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4027, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of chair (red point) and table (blue point) in this images? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004027/000.jpg", + "spar_bench/sample_004027/001.jpg", + "spar_bench/sample_004027/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4028, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center distance in meters between toaster oven (red point) and refrigerator (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004028/000.jpg", + "spar_bench/sample_004028/001.jpg", + "spar_bench/sample_004028/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4029, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking chair and trash can? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004029/000.jpg", + "spar_bench/sample_004029/001.jpg", + "spar_bench/sample_004029/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4030, + "data_source": "SPAR-Bench", + "question": "What is the numeric distance, in meters, between the centers of the red and blue points representing chair and chair? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004030/000.jpg", + "spar_bench/sample_004030/001.jpg", + "spar_bench/sample_004030/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4031, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of kitchen counter (red point) and kitchen cabinet (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004031/000.jpg", + "spar_bench/sample_004031/001.jpg", + "spar_bench/sample_004031/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4032, + "data_source": "SPAR-Bench", + "question": "How far in meters is windowsill (red point) from cup (blue point) based on their centers in the images? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004032/000.jpg", + "spar_bench/sample_004032/001.jpg", + "spar_bench/sample_004032/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4033, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of kitchen counter (red point) and the center of refrigerator (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004033/000.jpg", + "spar_bench/sample_004033/001.jpg", + "spar_bench/sample_004033/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4034, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between kitchen cabinet (red point) and microwave (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004034/000.jpg", + "spar_bench/sample_004034/001.jpg", + "spar_bench/sample_004034/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4035, + "data_source": "SPAR-Bench", + "question": "State the Euclidean distance in meters from the center of refrigerator (red point) to the center of cabinet (blue point). Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004035/000.jpg", + "spar_bench/sample_004035/001.jpg", + "spar_bench/sample_004035/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4036, + "data_source": "SPAR-Bench", + "question": "What is the numeric distance, in meters, between the centers of the red and blue points representing pillow and computer tower? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004036/000.jpg", + "spar_bench/sample_004036/001.jpg", + "spar_bench/sample_004036/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4037, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of pillow (red point) and the center of pillow (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004037/000.jpg", + "spar_bench/sample_004037/001.jpg", + "spar_bench/sample_004037/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4038, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between pillow and laptop in the images? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004038/000.jpg", + "spar_bench/sample_004038/001.jpg", + "spar_bench/sample_004038/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4039, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between cup (red point) and soap dispenser (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004039/000.jpg", + "spar_bench/sample_004039/001.jpg", + "spar_bench/sample_004039/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4040, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing bed and office chair? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004040/000.jpg", + "spar_bench/sample_004040/001.jpg", + "spar_bench/sample_004040/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4041, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of box (red point) from the center of boxes (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004041/000.jpg", + "spar_bench/sample_004041/001.jpg", + "spar_bench/sample_004041/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4042, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between compost bin and office chair in the images? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004042/000.jpg", + "spar_bench/sample_004042/001.jpg", + "spar_bench/sample_004042/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4043, + "data_source": "SPAR-Bench", + "question": "What is the measured separation in meters between the center of curtain (red point) and the center of chair (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004043/000.jpg", + "spar_bench/sample_004043/001.jpg", + "spar_bench/sample_004043/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4044, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking sink and bathroom vanity? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004044/000.jpg", + "spar_bench/sample_004044/001.jpg", + "spar_bench/sample_004044/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4045, + "data_source": "SPAR-Bench", + "question": "Find the distance, measured in meters, separating the centers of trash bin (red point) and paper towel dispenser (blue point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004045/000.jpg", + "spar_bench/sample_004045/001.jpg", + "spar_bench/sample_004045/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4046, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of couch (red point) and desk (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004046/000.jpg", + "spar_bench/sample_004046/001.jpg", + "spar_bench/sample_004046/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4047, + "data_source": "SPAR-Bench", + "question": "How far apart are the centers of couch (red point) and backpack (blue point) in the images, measured in meters? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004047/000.jpg", + "spar_bench/sample_004047/001.jpg", + "spar_bench/sample_004047/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4048, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of couch (red point) and backpack (blue point) in the images. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004048/000.jpg", + "spar_bench/sample_004048/001.jpg", + "spar_bench/sample_004048/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4049, + "data_source": "SPAR-Bench", + "question": "In meters, what is the calculated distance between the red and blue points representing pillow and pillow? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004049/000.jpg", + "spar_bench/sample_004049/001.jpg", + "spar_bench/sample_004049/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4050, + "data_source": "SPAR-Bench", + "question": "How far apart are the centers of bathroom stall door (red point) and bathroom stall (blue point) in the images, measured in meters? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004050/000.jpg", + "spar_bench/sample_004050/001.jpg", + "spar_bench/sample_004050/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4051, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of chair (red point) and chair (blue point) in the images. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004051/000.jpg", + "spar_bench/sample_004051/001.jpg", + "spar_bench/sample_004051/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4052, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of table (red point) and chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004052/000.jpg", + "spar_bench/sample_004052/001.jpg", + "spar_bench/sample_004052/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4053, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of office chair (red point) and trash can (blue point). Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004053/000.jpg", + "spar_bench/sample_004053/001.jpg", + "spar_bench/sample_004053/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4054, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of recycling bin (red point) and the center of radiator (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004054/000.jpg", + "spar_bench/sample_004054/001.jpg", + "spar_bench/sample_004054/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4055, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of books (red point) and backpack (blue point). Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004055/000.jpg", + "spar_bench/sample_004055/001.jpg", + "spar_bench/sample_004055/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4056, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of backpack (red point) from the center of chair (blue point)? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004056/000.jpg", + "spar_bench/sample_004056/001.jpg", + "spar_bench/sample_004056/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4057, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between chair (red point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004057/000.jpg", + "spar_bench/sample_004057/001.jpg", + "spar_bench/sample_004057/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4058, + "data_source": "SPAR-Bench", + "question": "What is the shortest distance in meters between the center of chair (red point) and the center of chair (blue point)? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004058/000.jpg", + "spar_bench/sample_004058/001.jpg", + "spar_bench/sample_004058/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4059, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of chair (red point) and table (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004059/000.jpg", + "spar_bench/sample_004059/001.jpg", + "spar_bench/sample_004059/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4060, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of machine (red point) and trash can (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004060/000.jpg", + "spar_bench/sample_004060/001.jpg", + "spar_bench/sample_004060/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4061, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between ottoman (red point) and armchair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004061/000.jpg", + "spar_bench/sample_004061/001.jpg", + "spar_bench/sample_004061/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4062, + "data_source": "SPAR-Bench", + "question": "Can you calculate the Euclidean distance between the center of bookshelf (red point) and the center of trash can (blue point) and provide it in meters? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004062/000.jpg", + "spar_bench/sample_004062/001.jpg", + "spar_bench/sample_004062/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4063, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of chair to the blue center of chair in the images? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004063/000.jpg", + "spar_bench/sample_004063/001.jpg", + "spar_bench/sample_004063/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4064, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of monitor (red point) and windowsill (blue point) in the images. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004064/000.jpg", + "spar_bench/sample_004064/001.jpg", + "spar_bench/sample_004064/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4065, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of backpack (red point) and backpack (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004065/000.jpg", + "spar_bench/sample_004065/001.jpg", + "spar_bench/sample_004065/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4066, + "data_source": "SPAR-Bench", + "question": "What is the gap in meters between the center of table (red point) and the center of pillow (blue point) in this images? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004066/000.jpg", + "spar_bench/sample_004066/001.jpg", + "spar_bench/sample_004066/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4067, + "data_source": "SPAR-Bench", + "question": "In meters, what is the calculated distance between the red and blue points representing picture and chair? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004067/000.jpg", + "spar_bench/sample_004067/001.jpg", + "spar_bench/sample_004067/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4068, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of monitor (red point) from the center of office chair (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004068/000.jpg", + "spar_bench/sample_004068/001.jpg", + "spar_bench/sample_004068/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4069, + "data_source": "SPAR-Bench", + "question": "Find the distance, measured in meters, separating the centers of box (red point) and books (blue point). Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004069/000.jpg", + "spar_bench/sample_004069/001.jpg", + "spar_bench/sample_004069/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4070, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of monitor (red point) from the center of backpack (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004070/000.jpg", + "spar_bench/sample_004070/001.jpg", + "spar_bench/sample_004070/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4071, + "data_source": "SPAR-Bench", + "question": "Can you calculate the Euclidean distance between the center of bathtub (red point) and the center of toilet (blue point) and provide it in meters? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004071/000.jpg", + "spar_bench/sample_004071/001.jpg", + "spar_bench/sample_004071/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4072, + "data_source": "SPAR-Bench", + "question": "What is the measured separation in meters between the center of bag (red point) and the center of storage bin (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004072/000.jpg", + "spar_bench/sample_004072/001.jpg", + "spar_bench/sample_004072/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4073, + "data_source": "SPAR-Bench", + "question": "State the Euclidean distance in meters from the center of radiator (red point) to the center of chair (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004073/000.jpg", + "spar_bench/sample_004073/001.jpg", + "spar_bench/sample_004073/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4074, + "data_source": "SPAR-Bench", + "question": "Find the distance, measured in meters, separating the centers of window (red point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004074/000.jpg", + "spar_bench/sample_004074/001.jpg", + "spar_bench/sample_004074/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4075, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of mattress (red point) from the center of chair (blue point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004075/000.jpg", + "spar_bench/sample_004075/001.jpg", + "spar_bench/sample_004075/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4076, + "data_source": "SPAR-Bench", + "question": "In meters, what is the calculated distance between the red and blue points representing chair and chair? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004076/000.jpg", + "spar_bench/sample_004076/001.jpg", + "spar_bench/sample_004076/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4077, + "data_source": "SPAR-Bench", + "question": "In meters, what is the center-to-center Euclidean distance between chair (red point) and chair (blue point)? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004077/000.jpg", + "spar_bench/sample_004077/001.jpg", + "spar_bench/sample_004077/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4078, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of table (red point) from the center of bag (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004078/000.jpg", + "spar_bench/sample_004078/001.jpg", + "spar_bench/sample_004078/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4079, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of towel (red point) and toilet (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004079/000.jpg", + "spar_bench/sample_004079/001.jpg", + "spar_bench/sample_004079/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4080, + "data_source": "SPAR-Bench", + "question": "How far apart are the centers of clothes (red point) and plant (blue point) in the images, measured in meters? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004080/000.jpg", + "spar_bench/sample_004080/001.jpg", + "spar_bench/sample_004080/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4081, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance from the center of window (red point) to the center of chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004081/000.jpg", + "spar_bench/sample_004081/001.jpg", + "spar_bench/sample_004081/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4082, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of shelf (red point) and the center of picture (blue point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004082/000.jpg", + "spar_bench/sample_004082/001.jpg", + "spar_bench/sample_004082/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4083, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of kitchen cabinet (red point) from the center of box (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004083/000.jpg", + "spar_bench/sample_004083/001.jpg", + "spar_bench/sample_004083/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4084, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking chair and coffee table? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004084/000.jpg", + "spar_bench/sample_004084/001.jpg", + "spar_bench/sample_004084/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4085, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center spacing between bathroom stall (red point) and toilet (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004085/000.jpg", + "spar_bench/sample_004085/001.jpg", + "spar_bench/sample_004085/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4086, + "data_source": "SPAR-Bench", + "question": "In the images, how far in meters is the center of the red point from the blue point representing chair and trash can? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004086/000.jpg", + "spar_bench/sample_004086/001.jpg", + "spar_bench/sample_004086/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4087, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of wood beam to the blue center of desk in the images? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004087/000.jpg", + "spar_bench/sample_004087/001.jpg", + "spar_bench/sample_004087/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4088, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of printer (red point) and backpack (blue point) in this images? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004088/000.jpg", + "spar_bench/sample_004088/001.jpg", + "spar_bench/sample_004088/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4089, + "data_source": "SPAR-Bench", + "question": "What is the physical distance, in meters, from the center of backpack (red point) to the center of suitcase (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004089/000.jpg", + "spar_bench/sample_004089/001.jpg", + "spar_bench/sample_004089/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4090, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing chair and recycling bin? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004090/000.jpg", + "spar_bench/sample_004090/001.jpg", + "spar_bench/sample_004090/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4091, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of pillow (red point) and the center of armchair (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004091/000.jpg", + "spar_bench/sample_004091/001.jpg", + "spar_bench/sample_004091/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4092, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking bed and trash can? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004092/000.jpg", + "spar_bench/sample_004092/001.jpg", + "spar_bench/sample_004092/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4093, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of chair (red point) and lamp (blue point) in the images. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004093/000.jpg", + "spar_bench/sample_004093/001.jpg", + "spar_bench/sample_004093/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4094, + "data_source": "SPAR-Bench", + "question": "How far in meters is chest (red point) from pillow (blue point) based on their centers in the images? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004094/000.jpg", + "spar_bench/sample_004094/001.jpg", + "spar_bench/sample_004094/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4095, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center distance in meters between chair (red point) and bookshelf (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004095/000.jpg", + "spar_bench/sample_004095/001.jpg", + "spar_bench/sample_004095/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4096, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of power outlet (red point) from the center of telephone (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004096/000.jpg", + "spar_bench/sample_004096/001.jpg", + "spar_bench/sample_004096/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4097, + "data_source": "SPAR-Bench", + "question": "What is the direct distance in meters between the red point of chair and the blue point of whiteboard at their centers? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004097/000.jpg", + "spar_bench/sample_004097/001.jpg", + "spar_bench/sample_004097/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4098, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking chair and refrigerator? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004098/000.jpg", + "spar_bench/sample_004098/001.jpg", + "spar_bench/sample_004098/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4099, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of armchair (red point) and coffee table (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004099/000.jpg", + "spar_bench/sample_004099/001.jpg", + "spar_bench/sample_004099/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4100, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking backpack and couch? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004100/000.jpg", + "spar_bench/sample_004100/001.jpg", + "spar_bench/sample_004100/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4101, + "data_source": "SPAR-Bench", + "question": "State the distance in meters from trash can (red point) to office chair (blue point), based on their centers. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004101/000.jpg", + "spar_bench/sample_004101/001.jpg", + "spar_bench/sample_004101/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4102, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing printer and cabinet? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004102/000.jpg", + "spar_bench/sample_004102/001.jpg", + "spar_bench/sample_004102/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4103, + "data_source": "SPAR-Bench", + "question": "What is the shortest distance in meters between the center of fan (red point) and the center of cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004103/000.jpg", + "spar_bench/sample_004103/001.jpg", + "spar_bench/sample_004103/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4104, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of chair to the blue center of chair in the images? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004104/000.jpg", + "spar_bench/sample_004104/001.jpg", + "spar_bench/sample_004104/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4105, + "data_source": "SPAR-Bench", + "question": "What is the direct distance in meters between the red point of bed and the blue point of pillow at their centers? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004105/000.jpg", + "spar_bench/sample_004105/001.jpg", + "spar_bench/sample_004105/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4106, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of chair (red point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004106/000.jpg", + "spar_bench/sample_004106/001.jpg", + "spar_bench/sample_004106/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4107, + "data_source": "SPAR-Bench", + "question": "How far apart are the centers of box (red point) and paper stapler (blue point) in the images, measured in meters? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004107/000.jpg", + "spar_bench/sample_004107/001.jpg", + "spar_bench/sample_004107/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4108, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing books and ottoman chair? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004108/000.jpg", + "spar_bench/sample_004108/001.jpg", + "spar_bench/sample_004108/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4109, + "data_source": "SPAR-Bench", + "question": "What is the numeric distance, in meters, between the centers of the red and blue points representing split and box? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004109/000.jpg", + "spar_bench/sample_004109/001.jpg", + "spar_bench/sample_004109/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4110, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking hand soap dispenser and light switch? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004110/000.jpg", + "spar_bench/sample_004110/001.jpg", + "spar_bench/sample_004110/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4111, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between toilet paper holder (red point) and hairdryer (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004111/000.jpg", + "spar_bench/sample_004111/001.jpg", + "spar_bench/sample_004111/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4112, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking mouse and chair? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004112/000.jpg", + "spar_bench/sample_004112/001.jpg", + "spar_bench/sample_004112/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4113, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking box and table? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004113/000.jpg", + "spar_bench/sample_004113/001.jpg", + "spar_bench/sample_004113/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4114, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between chair (red point) and bottle (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004114/000.jpg", + "spar_bench/sample_004114/001.jpg", + "spar_bench/sample_004114/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4115, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of bed (red point) and decoration (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004115/000.jpg", + "spar_bench/sample_004115/001.jpg", + "spar_bench/sample_004115/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4116, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of whiteboard (red point) and bottle crate (blue point) in this images? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004116/000.jpg", + "spar_bench/sample_004116/001.jpg", + "spar_bench/sample_004116/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4117, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center spacing between power socket (red point) and box (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004117/000.jpg", + "spar_bench/sample_004117/001.jpg", + "spar_bench/sample_004117/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4118, + "data_source": "SPAR-Bench", + "question": "What is the numeric distance, in meters, between the centers of the red and blue points representing windowframe and trash bin? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004118/000.jpg", + "spar_bench/sample_004118/001.jpg", + "spar_bench/sample_004118/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4119, + "data_source": "SPAR-Bench", + "question": "What is the gap in meters between the center of box (red point) and the center of utensils (blue point) in this images? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004119/000.jpg", + "spar_bench/sample_004119/001.jpg", + "spar_bench/sample_004119/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4120, + "data_source": "SPAR-Bench", + "question": "Provide the distance in meters separating the center of window (red point) and the center of objects (blue point) in the images. Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004120/000.jpg", + "spar_bench/sample_004120/001.jpg", + "spar_bench/sample_004120/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4121, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking cushion and paper? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004121/000.jpg", + "spar_bench/sample_004121/001.jpg", + "spar_bench/sample_004121/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4122, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of table (red point) and the center of fire extinguisher (blue point). Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004122/000.jpg", + "spar_bench/sample_004122/001.jpg", + "spar_bench/sample_004122/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4123, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of microwave (red point) from the center of calendar (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004123/000.jpg", + "spar_bench/sample_004123/001.jpg", + "spar_bench/sample_004123/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4124, + "data_source": "SPAR-Bench", + "question": "How many meters apart are the centers of beanbag (red point) and box (blue point) in this images? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004124/000.jpg", + "spar_bench/sample_004124/001.jpg", + "spar_bench/sample_004124/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4125, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of joined tables and power socket? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004125/000.jpg", + "spar_bench/sample_004125/001.jpg", + "spar_bench/sample_004125/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4126, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of mouse (red point) and the center of power strip (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004126/000.jpg", + "spar_bench/sample_004126/001.jpg", + "spar_bench/sample_004126/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4127, + "data_source": "SPAR-Bench", + "question": "How far in meters is plug (red point) from chair (blue point) based on their centers in the images? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004127/000.jpg", + "spar_bench/sample_004127/001.jpg", + "spar_bench/sample_004127/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4128, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of overhead projector (red point) and office chair (blue point). Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004128/000.jpg", + "spar_bench/sample_004128/001.jpg", + "spar_bench/sample_004128/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4129, + "data_source": "SPAR-Bench", + "question": "Find the distance, measured in meters, separating the centers of cutting board (red point) and kettle (blue point). Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004129/000.jpg", + "spar_bench/sample_004129/001.jpg", + "spar_bench/sample_004129/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4130, + "data_source": "SPAR-Bench", + "question": "How far away, in meters, is the center of cardboard box (red point) from the center of cardboard box (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004130/000.jpg", + "spar_bench/sample_004130/001.jpg", + "spar_bench/sample_004130/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4131, + "data_source": "SPAR-Bench", + "question": "In the images, how far in meters is the center of the red point from the blue point representing ottoman chair and box? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004131/000.jpg", + "spar_bench/sample_004131/001.jpg", + "spar_bench/sample_004131/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4132, + "data_source": "SPAR-Bench", + "question": "What is the physical distance, in meters, from the center of pillow (red point) to the center of bed (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004132/000.jpg", + "spar_bench/sample_004132/001.jpg", + "spar_bench/sample_004132/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4133, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters from the center of cabinet (red point) to the center of box (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004133/000.jpg", + "spar_bench/sample_004133/001.jpg", + "spar_bench/sample_004133/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4134, + "data_source": "SPAR-Bench", + "question": "State the distance in meters from coffee maker (red point) to container (blue point), based on their centers. Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004134/000.jpg", + "spar_bench/sample_004134/001.jpg", + "spar_bench/sample_004134/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4135, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of pipe and cable tray? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004135/000.jpg", + "spar_bench/sample_004135/001.jpg", + "spar_bench/sample_004135/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4136, + "data_source": "SPAR-Bench", + "question": "What is the direct distance in meters between the red point of laptop and the blue point of table at their centers? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004136/000.jpg", + "spar_bench/sample_004136/001.jpg", + "spar_bench/sample_004136/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4137, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters from the red point representing windowsill to the blue point representing cup? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004137/000.jpg", + "spar_bench/sample_004137/001.jpg", + "spar_bench/sample_004137/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4138, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between monitor (red point) and SPLIT (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004138/000.jpg", + "spar_bench/sample_004138/001.jpg", + "spar_bench/sample_004138/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4139, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of dishwasher (red point) and cheese (blue point)? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004139/000.jpg", + "spar_bench/sample_004139/001.jpg", + "spar_bench/sample_004139/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4140, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of window frame (red point) to storage rack (blue point). Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004140/000.jpg", + "spar_bench/sample_004140/001.jpg", + "spar_bench/sample_004140/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4141, + "data_source": "SPAR-Bench", + "question": "Provide the distance in meters separating the center of sofa (red point) and the center of box (blue point) in the images. Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004141/000.jpg", + "spar_bench/sample_004141/001.jpg", + "spar_bench/sample_004141/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4142, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of power socket (red point) from the center of box (blue point)? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004142/000.jpg", + "spar_bench/sample_004142/001.jpg", + "spar_bench/sample_004142/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4143, + "data_source": "SPAR-Bench", + "question": "Find the distance, measured in meters, separating the centers of structure (red point) and toilet (blue point). Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004143/000.jpg", + "spar_bench/sample_004143/001.jpg", + "spar_bench/sample_004143/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4144, + "data_source": "SPAR-Bench", + "question": "In meters, what is the calculated distance between the red and blue points representing trash bin and bath cabinet? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004144/000.jpg", + "spar_bench/sample_004144/001.jpg", + "spar_bench/sample_004144/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4145, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between chair (red point) and chair (blue point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004145/000.jpg", + "spar_bench/sample_004145/001.jpg", + "spar_bench/sample_004145/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4146, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between toothpaste and bottle in the images? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004146/000.jpg", + "spar_bench/sample_004146/001.jpg", + "spar_bench/sample_004146/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4147, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of split (red point) and toilet (blue point) in the images. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004147/000.jpg", + "spar_bench/sample_004147/001.jpg", + "spar_bench/sample_004147/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4148, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between chair (red point) and chair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004148/000.jpg", + "spar_bench/sample_004148/001.jpg", + "spar_bench/sample_004148/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4149, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of power socket and faucet? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004149/000.jpg", + "spar_bench/sample_004149/001.jpg", + "spar_bench/sample_004149/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4150, + "data_source": "SPAR-Bench", + "question": "Find the distance, measured in meters, separating the centers of counter (red point) and trash bin (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004150/000.jpg", + "spar_bench/sample_004150/001.jpg", + "spar_bench/sample_004150/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4151, + "data_source": "SPAR-Bench", + "question": "What is the numeric distance, in meters, between the centers of the red and blue points representing windowsill and keyboard? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004151/000.jpg", + "spar_bench/sample_004151/001.jpg", + "spar_bench/sample_004151/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4152, + "data_source": "SPAR-Bench", + "question": "What is the shortest distance in meters between the center of storage cabinet (red point) and the center of whiteboard (blue point)? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004152/000.jpg", + "spar_bench/sample_004152/001.jpg", + "spar_bench/sample_004152/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4153, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of window (red point) from the center of chair (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004153/000.jpg", + "spar_bench/sample_004153/001.jpg", + "spar_bench/sample_004153/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4154, + "data_source": "SPAR-Bench", + "question": "What is the direct distance in meters between the red point of tv receiver and the blue point of power socket at their centers? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004154/000.jpg", + "spar_bench/sample_004154/001.jpg", + "spar_bench/sample_004154/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4155, + "data_source": "SPAR-Bench", + "question": "Can you determine the distance between the centers of toilet (red point) and bottle (blue point) and express it in meters? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004155/000.jpg", + "spar_bench/sample_004155/001.jpg", + "spar_bench/sample_004155/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4156, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters between kitchen cabinet (red point) and power socket (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004156/000.jpg", + "spar_bench/sample_004156/001.jpg", + "spar_bench/sample_004156/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4157, + "data_source": "SPAR-Bench", + "question": "In meters, what is the calculated distance between the red and blue points representing first aid cabinet and pipe? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004157/000.jpg", + "spar_bench/sample_004157/001.jpg", + "spar_bench/sample_004157/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4158, + "data_source": "SPAR-Bench", + "question": "In meters, what is the calculated distance between the red and blue points representing water bubbler and cup? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004158/000.jpg", + "spar_bench/sample_004158/001.jpg", + "spar_bench/sample_004158/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4159, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the center of table (red point) and the center of keyboard (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004159/000.jpg", + "spar_bench/sample_004159/001.jpg", + "spar_bench/sample_004159/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4160, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of shower curtain (red point) and shoes (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004160/000.jpg", + "spar_bench/sample_004160/001.jpg", + "spar_bench/sample_004160/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4161, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking serving trolley and fridge? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004161/000.jpg", + "spar_bench/sample_004161/001.jpg", + "spar_bench/sample_004161/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4162, + "data_source": "SPAR-Bench", + "question": "What is the direct distance in meters between the red point of table and the blue point of coffee maker at their centers? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004162/000.jpg", + "spar_bench/sample_004162/001.jpg", + "spar_bench/sample_004162/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4163, + "data_source": "SPAR-Bench", + "question": "What is the measured separation in meters between the center of table (red point) and the center of box (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004163/000.jpg", + "spar_bench/sample_004163/001.jpg", + "spar_bench/sample_004163/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4164, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of computer tower (red point) to the center of chair (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004164/000.jpg", + "spar_bench/sample_004164/001.jpg", + "spar_bench/sample_004164/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4165, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking decoration and power socket? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004165/000.jpg", + "spar_bench/sample_004165/001.jpg", + "spar_bench/sample_004165/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4166, + "data_source": "SPAR-Bench", + "question": "Provide the distance in meters separating the center of shoes (red point) and the center of SPLIT (blue point) in the images. Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004166/000.jpg", + "spar_bench/sample_004166/001.jpg", + "spar_bench/sample_004166/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4167, + "data_source": "SPAR-Bench", + "question": "What is the gap in meters between the center of bedside cabinet (red point) and the center of book (blue point) in this images? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004167/000.jpg", + "spar_bench/sample_004167/001.jpg", + "spar_bench/sample_004167/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4168, + "data_source": "SPAR-Bench", + "question": "What is the direct distance in meters between the red point of laptop and the blue point of table at their centers? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004168/000.jpg", + "spar_bench/sample_004168/001.jpg", + "spar_bench/sample_004168/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4169, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters from the center of book (red point) to the center of box (blue point). Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004169/000.jpg", + "spar_bench/sample_004169/001.jpg", + "spar_bench/sample_004169/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4170, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking window frame and shelf? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004170/000.jpg", + "spar_bench/sample_004170/001.jpg", + "spar_bench/sample_004170/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4171, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of heater (red point) to the center of joined tables (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004171/000.jpg", + "spar_bench/sample_004171/001.jpg", + "spar_bench/sample_004171/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4172, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the center of overhead projector (red point) and the center of chair (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004172/000.jpg", + "spar_bench/sample_004172/001.jpg", + "spar_bench/sample_004172/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4173, + "data_source": "SPAR-Bench", + "question": "What is the precise distance in meters from box (red point) to bookshelf (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004173/000.jpg", + "spar_bench/sample_004173/001.jpg", + "spar_bench/sample_004173/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4174, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of toilet paper and towel? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004174/000.jpg", + "spar_bench/sample_004174/001.jpg", + "spar_bench/sample_004174/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4175, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of table (red point) from the center of windowframe (blue point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004175/000.jpg", + "spar_bench/sample_004175/001.jpg", + "spar_bench/sample_004175/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4176, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters from the center of chessboard (red point) to the center of paper (blue point). Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004176/000.jpg", + "spar_bench/sample_004176/001.jpg", + "spar_bench/sample_004176/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4177, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters from the red point representing cabinet to the blue point representing pinboard? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004177/000.jpg", + "spar_bench/sample_004177/001.jpg", + "spar_bench/sample_004177/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4178, + "data_source": "SPAR-Bench", + "question": "What is the measured separation in meters between the center of books (red point) and the center of books (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004178/000.jpg", + "spar_bench/sample_004178/001.jpg", + "spar_bench/sample_004178/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4179, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking copier and box? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004179/000.jpg", + "spar_bench/sample_004179/001.jpg", + "spar_bench/sample_004179/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4180, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of bag (red point) and the center of shoes (blue point). Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004180/000.jpg", + "spar_bench/sample_004180/001.jpg", + "spar_bench/sample_004180/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4181, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of table (red point) from the center of table (blue point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004181/000.jpg", + "spar_bench/sample_004181/001.jpg", + "spar_bench/sample_004181/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4182, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of toilet paper dispenser to the blue center of toilet paper in the images? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004182/000.jpg", + "spar_bench/sample_004182/001.jpg", + "spar_bench/sample_004182/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4183, + "data_source": "SPAR-Bench", + "question": "State the Euclidean distance in meters from the center of exhaust fan (red point) to the center of overhead projector (blue point). Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004183/000.jpg", + "spar_bench/sample_004183/001.jpg", + "spar_bench/sample_004183/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4184, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of pencil stande (red point) from the center of windowsill (blue point)? Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004184/000.jpg", + "spar_bench/sample_004184/001.jpg", + "spar_bench/sample_004184/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4185, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance from the center of table (red point) to the center of chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004185/000.jpg", + "spar_bench/sample_004185/001.jpg", + "spar_bench/sample_004185/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4186, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of stapler (red point) and power sockets (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004186/000.jpg", + "spar_bench/sample_004186/001.jpg", + "spar_bench/sample_004186/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4187, + "data_source": "SPAR-Bench", + "question": "Find the distance, measured in meters, separating the centers of backpack (red point) and shelf (blue point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004187/000.jpg", + "spar_bench/sample_004187/001.jpg", + "spar_bench/sample_004187/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4188, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters from the red center of desk lamp to the blue center of laboratory equipment in the images? Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004188/000.jpg", + "spar_bench/sample_004188/001.jpg", + "spar_bench/sample_004188/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4189, + "data_source": "SPAR-Bench", + "question": "In meters, what is the calculated distance between the red and blue points representing chair and kitchen cabinet? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004189/000.jpg", + "spar_bench/sample_004189/001.jpg", + "spar_bench/sample_004189/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4190, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of sink (red point) from the center of towel (blue point)? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004190/000.jpg", + "spar_bench/sample_004190/001.jpg", + "spar_bench/sample_004190/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4191, + "data_source": "SPAR-Bench", + "question": "How far away, in meters, is the center of cabinet (red point) from the center of box (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004191/000.jpg", + "spar_bench/sample_004191/001.jpg", + "spar_bench/sample_004191/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4192, + "data_source": "SPAR-Bench", + "question": "Find the distance, measured in meters, separating the centers of chair (red point) and table (blue point). Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004192/000.jpg", + "spar_bench/sample_004192/001.jpg", + "spar_bench/sample_004192/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4193, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters from the center of jacket (red point) to the center of shoe (blue point). Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004193/000.jpg", + "spar_bench/sample_004193/001.jpg", + "spar_bench/sample_004193/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4194, + "data_source": "SPAR-Bench", + "question": "How much space, measured in meters, separates the center of paper (red point) from the center of utensils (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004194/000.jpg", + "spar_bench/sample_004194/001.jpg", + "spar_bench/sample_004194/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4195, + "data_source": "SPAR-Bench", + "question": "What is the physical distance, in meters, from the center of box (red point) to the center of box (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004195/000.jpg", + "spar_bench/sample_004195/001.jpg", + "spar_bench/sample_004195/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4196, + "data_source": "SPAR-Bench", + "question": "How far in meters is faucet (red point) from oven (blue point) based on their centers in the images? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004196/000.jpg", + "spar_bench/sample_004196/001.jpg", + "spar_bench/sample_004196/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4197, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of cardboard box (red point) and cardboard box (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004197/000.jpg", + "spar_bench/sample_004197/001.jpg", + "spar_bench/sample_004197/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4198, + "data_source": "SPAR-Bench", + "question": "What is the center-to-center distance in meters between coax outlet (red point) and box (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004198/000.jpg", + "spar_bench/sample_004198/001.jpg", + "spar_bench/sample_004198/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4199, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of office chair (red point) and keyboard (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004199/000.jpg", + "spar_bench/sample_004199/001.jpg", + "spar_bench/sample_004199/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4200, + "data_source": "SPAR-Bench", + "question": "What is the numeric distance, in meters, between the centers of the red and blue points representing tube and table? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004200/000.jpg", + "spar_bench/sample_004200/001.jpg", + "spar_bench/sample_004200/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4201, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of toilet paper holder and cabinet? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004201/000.jpg", + "spar_bench/sample_004201/001.jpg", + "spar_bench/sample_004201/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4202, + "data_source": "SPAR-Bench", + "question": "In the images, how far in meters is the center of the red point from the blue point representing headboard and pillow? Calculate or judge based on the 3D center points of these objects. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004202/000.jpg", + "spar_bench/sample_004202/001.jpg", + "spar_bench/sample_004202/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4203, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of chair (red point) and the center of bottle (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004203/000.jpg", + "spar_bench/sample_004203/001.jpg", + "spar_bench/sample_004203/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4204, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of joined tables (red point) from the center of window frame (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004204/000.jpg", + "spar_bench/sample_004204/001.jpg", + "spar_bench/sample_004204/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4205, + "data_source": "SPAR-Bench", + "question": "What is the numeric distance, in meters, between the centers of the red and blue points representing split and power socket? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004205/000.jpg", + "spar_bench/sample_004205/001.jpg", + "spar_bench/sample_004205/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4206, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between window (red point) and book (blue point). Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004206/000.jpg", + "spar_bench/sample_004206/001.jpg", + "spar_bench/sample_004206/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4207, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of plant pot (red point) from the center of paper (blue point)? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004207/000.jpg", + "spar_bench/sample_004207/001.jpg", + "spar_bench/sample_004207/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4208, + "data_source": "SPAR-Bench", + "question": "Calculate the Euclidean distance between windowsill (red point) and structure (blue point) at their centers, expressed in meters. Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004208/000.jpg", + "spar_bench/sample_004208/001.jpg", + "spar_bench/sample_004208/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4209, + "data_source": "SPAR-Bench", + "question": "In meters, what is the center-to-center Euclidean distance between comforter (red point) and nightstand (blue point)? Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004209/000.jpg", + "spar_bench/sample_004209/001.jpg", + "spar_bench/sample_004209/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4210, + "data_source": "SPAR-Bench", + "question": "How far apart are the centers of column (red point) and box (blue point) in the images, measured in meters? Calculate or judge based on the 3D center points of these objects. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004210/000.jpg", + "spar_bench/sample_004210/001.jpg", + "spar_bench/sample_004210/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4211, + "data_source": "SPAR-Bench", + "question": "How would you express the distance between SPLIT (red point) and chair (blue point) in meters? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004211/000.jpg", + "spar_bench/sample_004211/001.jpg", + "spar_bench/sample_004211/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4212, + "data_source": "SPAR-Bench", + "question": "Provide the distance in meters separating the center of kitchen towel (red point) and the center of dishwasher (blue point) in the images. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004212/000.jpg", + "spar_bench/sample_004212/001.jpg", + "spar_bench/sample_004212/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4213, + "data_source": "SPAR-Bench", + "question": "Measure and provide the distance, in meters, between the centers of trash bin (red point) and toilet paper (blue point). Calculate or judge based on the 3D center points of these objects. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004213/000.jpg", + "spar_bench/sample_004213/001.jpg", + "spar_bench/sample_004213/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4214, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between telephone and coffee maker in the images? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004214/000.jpg", + "spar_bench/sample_004214/001.jpg", + "spar_bench/sample_004214/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4215, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of table (red point) and table (blue point)? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004215/000.jpg", + "spar_bench/sample_004215/001.jpg", + "spar_bench/sample_004215/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4216, + "data_source": "SPAR-Bench", + "question": "What is the numeric distance, in meters, between the centers of the red and blue points representing sink and toilet paper holder? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004216/000.jpg", + "spar_bench/sample_004216/001.jpg", + "spar_bench/sample_004216/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4217, + "data_source": "SPAR-Bench", + "question": "How far, measured in meters, is the center of heater (red point) from the center of power socket (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004217/000.jpg", + "spar_bench/sample_004217/001.jpg", + "spar_bench/sample_004217/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4218, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the center of paper (red point) to the center of chair (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004218/000.jpg", + "spar_bench/sample_004218/001.jpg", + "spar_bench/sample_004218/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4219, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of cabinet (red point) and power socket (blue point)? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004219/000.jpg", + "spar_bench/sample_004219/001.jpg", + "spar_bench/sample_004219/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4220, + "data_source": "SPAR-Bench", + "question": "Calculate the shortest Euclidean distance in meters from the center of table (red point) to table (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004220/000.jpg", + "spar_bench/sample_004220/001.jpg", + "spar_bench/sample_004220/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4221, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing overhead projector and office chair? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004221/000.jpg", + "spar_bench/sample_004221/001.jpg", + "spar_bench/sample_004221/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4222, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between chair (red point) and table (blue point). Calculate or judge based on the 3D center points of these objects. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004222/000.jpg", + "spar_bench/sample_004222/001.jpg", + "spar_bench/sample_004222/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4223, + "data_source": "SPAR-Bench", + "question": "Provide the distance in meters separating the center of cable socket (red point) and the center of coax outlet (blue point) in the images. Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004223/000.jpg", + "spar_bench/sample_004223/001.jpg", + "spar_bench/sample_004223/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4224, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters between stool (red point) and box (blue point) at their centers? Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004224/000.jpg", + "spar_bench/sample_004224/001.jpg", + "spar_bench/sample_004224/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4225, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of table (red point) and pen (blue point)? Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004225/000.jpg", + "spar_bench/sample_004225/001.jpg", + "spar_bench/sample_004225/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4226, + "data_source": "SPAR-Bench", + "question": "Find the distance, measured in meters, separating the centers of chopping board (red point) and trash bin (blue point). Calculate or judge based on the 3D center points of these objects. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004226/000.jpg", + "spar_bench/sample_004226/001.jpg", + "spar_bench/sample_004226/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4227, + "data_source": "SPAR-Bench", + "question": "Please determine the center-to-center distance in meters between hairdryer (red point) and bottle (blue point). Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004227/000.jpg", + "spar_bench/sample_004227/001.jpg", + "spar_bench/sample_004227/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4228, + "data_source": "SPAR-Bench", + "question": "Express in meters the center-to-center separation of shelf (red point) and chopping board (blue point) in the images. Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004228/000.jpg", + "spar_bench/sample_004228/001.jpg", + "spar_bench/sample_004228/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4229, + "data_source": "SPAR-Bench", + "question": "What is the length of the straight line, in meters, connecting the centers of cabinet (red point) and beanbag (blue point)? Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004229/000.jpg", + "spar_bench/sample_004229/001.jpg", + "spar_bench/sample_004229/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4230, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing box and chair? Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004230/000.jpg", + "spar_bench/sample_004230/001.jpg", + "spar_bench/sample_004230/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4231, + "data_source": "SPAR-Bench", + "question": "How would you describe the distance, in meters, between the red and blue points marking sofa and cushion? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004231/000.jpg", + "spar_bench/sample_004231/001.jpg", + "spar_bench/sample_004231/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4232, + "data_source": "SPAR-Bench", + "question": "How would you calculate the center-to-center distance, expressed in meters, between window frame and chair in the images? Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004232/000.jpg", + "spar_bench/sample_004232/001.jpg", + "spar_bench/sample_004232/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4233, + "data_source": "SPAR-Bench", + "question": "What is the linear distance between the center of box (red point) and the center of keyboard (blue point)? State the result in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004233/000.jpg", + "spar_bench/sample_004233/001.jpg", + "spar_bench/sample_004233/002.jpg" + ], + "data_type": "multi_view", + "answer": "7.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4234, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between paper (red point) and plant (blue point). Calculate or judge based on the 3D center points of these objects. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004234/000.jpg", + "spar_bench/sample_004234/001.jpg", + "spar_bench/sample_004234/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4235, + "data_source": "SPAR-Bench", + "question": "State the distance in meters from trash bin (red point) to shoes (blue point), based on their centers. Calculate or judge based on the 3D center points of these objects. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004235/000.jpg", + "spar_bench/sample_004235/001.jpg", + "spar_bench/sample_004235/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4236, + "data_source": "SPAR-Bench", + "question": "What is the measured separation in meters between the center of shelf (red point) and the center of table (blue point) in the images? Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004236/000.jpg", + "spar_bench/sample_004236/001.jpg", + "spar_bench/sample_004236/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4237, + "data_source": "SPAR-Bench", + "question": "In meters, how far is the center of SPLIT (red point) from the center of joined tables (blue point)? Calculate or judge based on the 3D center points of these objects. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004237/000.jpg", + "spar_bench/sample_004237/001.jpg", + "spar_bench/sample_004237/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4238, + "data_source": "SPAR-Bench", + "question": "What is the measured Euclidean distance, in meters, from the red point to the blue point representing office chair and windowsill? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004238/000.jpg", + "spar_bench/sample_004238/001.jpg", + "spar_bench/sample_004238/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4239, + "data_source": "SPAR-Bench", + "question": "Please determine the center-to-center distance in meters between computer tower (red point) and computer tower (blue point). Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004239/000.jpg", + "spar_bench/sample_004239/001.jpg", + "spar_bench/sample_004239/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4240, + "data_source": "SPAR-Bench", + "question": "State the Euclidean distance in meters from the center of tap (red point) to the center of bottle (blue point). Calculate or judge based on the 3D center points of these objects. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004240/000.jpg", + "spar_bench/sample_004240/001.jpg", + "spar_bench/sample_004240/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4241, + "data_source": "SPAR-Bench", + "question": "Please calculate and provide the distance in meters between the center of plant pot (red point) and the center of plant (blue point). Calculate or judge based on the 3D center points of these objects. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004241/000.jpg", + "spar_bench/sample_004241/001.jpg", + "spar_bench/sample_004241/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4242, + "data_source": "SPAR-Bench", + "question": "In meters, what is the distance separating the centers of the red and blue points marking SPLIT and chair? Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004242/000.jpg", + "spar_bench/sample_004242/001.jpg", + "spar_bench/sample_004242/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4243, + "data_source": "SPAR-Bench", + "question": "Provide the center-to-center distance, measured in meters, between bottle crate (red point) and table (blue point). Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004243/000.jpg", + "spar_bench/sample_004243/001.jpg", + "spar_bench/sample_004243/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4244, + "data_source": "SPAR-Bench", + "question": "How far apart, measured in meters, are the centers of toilet paper (red point) and flush button (blue point)? Calculate or judge based on the 3D center points of these objects. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004244/000.jpg", + "spar_bench/sample_004244/001.jpg", + "spar_bench/sample_004244/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4245, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance from the center of coffee maker (red point) to the center of table (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004245/000.jpg", + "spar_bench/sample_004245/001.jpg", + "spar_bench/sample_004245/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4246, + "data_source": "SPAR-Bench", + "question": "How far in meters is book (red point) from box (blue point) based on their centers in the images? Calculate or judge based on the 3D center points of these objects. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004246/000.jpg", + "spar_bench/sample_004246/001.jpg", + "spar_bench/sample_004246/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4247, + "data_source": "SPAR-Bench", + "question": "How far apart are the red and blue points representing the centers of machine and SPLIT? State the distance in meters. Calculate or judge based on the 3D center points of these objects. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004247/000.jpg", + "spar_bench/sample_004247/001.jpg", + "spar_bench/sample_004247/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4248, + "data_source": "SPAR-Bench", + "question": "In the images, how far in meters is the center of the red point from the blue point representing toilet paper and toilet brush? Calculate or judge based on the 3D center points of these objects. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004248/000.jpg", + "spar_bench/sample_004248/001.jpg", + "spar_bench/sample_004248/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4249, + "data_source": "SPAR-Bench", + "question": "Using meters as the unit, calculate the distance between the center of chair (red point) and the center of window sill (blue point). Calculate or judge based on the 3D center points of these objects. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004249/000.jpg", + "spar_bench/sample_004249/001.jpg", + "spar_bench/sample_004249/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4250, + "data_source": "SPAR-Bench", + "question": "What is the numeric distance, in meters, between the centers of the red and blue points representing pillow and board? Calculate or judge based on the 3D center points of these objects. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004250/000.jpg", + "spar_bench/sample_004250/001.jpg", + "spar_bench/sample_004250/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4251, + "data_source": "SPAR-Bench", + "question": "Express the Euclidean distance between the center of chair (red point) and blackboard (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004251/000.jpg", + "spar_bench/sample_004251/001.jpg", + "spar_bench/sample_004251/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4252, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of toilet paper in the scene? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004252/000.jpg", + "spar_bench/sample_004252/001.jpg", + "spar_bench/sample_004252/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4253, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of window (red point)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004253/000.jpg", + "spar_bench/sample_004253/001.jpg", + "spar_bench/sample_004253/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4254, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of desk (red point). Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004254/000.jpg", + "spar_bench/sample_004254/001.jpg", + "spar_bench/sample_004254/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4255, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of crate (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004255/000.jpg", + "spar_bench/sample_004255/001.jpg", + "spar_bench/sample_004255/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4256, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of table (red point)? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004256/000.jpg", + "spar_bench/sample_004256/001.jpg", + "spar_bench/sample_004256/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4257, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of cabinet (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004257/000.jpg", + "spar_bench/sample_004257/001.jpg", + "spar_bench/sample_004257/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4258, + "data_source": "SPAR-Bench", + "question": "How far is the center of table (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004258/000.jpg", + "spar_bench/sample_004258/001.jpg", + "spar_bench/sample_004258/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4259, + "data_source": "SPAR-Bench", + "question": "How far is the center of trash can (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004259/000.jpg", + "spar_bench/sample_004259/001.jpg", + "spar_bench/sample_004259/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4260, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of printer (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004260/000.jpg", + "spar_bench/sample_004260/001.jpg", + "spar_bench/sample_004260/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4261, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of recycling bin (red point) from the observer\u2019s position in the image? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004261/000.jpg", + "spar_bench/sample_004261/001.jpg", + "spar_bench/sample_004261/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4262, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters from the observer to the center of table (red point)? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004262/000.jpg", + "spar_bench/sample_004262/001.jpg", + "spar_bench/sample_004262/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4263, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of case of water bottles (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004263/000.jpg", + "spar_bench/sample_004263/001.jpg", + "spar_bench/sample_004263/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4264, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004264/000.jpg", + "spar_bench/sample_004264/001.jpg", + "spar_bench/sample_004264/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4265, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of couch (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004265/000.jpg", + "spar_bench/sample_004265/001.jpg", + "spar_bench/sample_004265/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4266, + "data_source": "SPAR-Bench", + "question": "How far is the center of backpack (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004266/000.jpg", + "spar_bench/sample_004266/001.jpg", + "spar_bench/sample_004266/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4267, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of bike lock (red point). Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004267/000.jpg", + "spar_bench/sample_004267/001.jpg", + "spar_bench/sample_004267/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4268, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of office chair (red point). Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004268/000.jpg", + "spar_bench/sample_004268/001.jpg", + "spar_bench/sample_004268/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4269, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of kitchen cabinet? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004269/000.jpg", + "spar_bench/sample_004269/001.jpg", + "spar_bench/sample_004269/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4270, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters from the observer\u2019s location to the red point at the center of file cabinet (red point). Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004270/000.jpg", + "spar_bench/sample_004270/001.jpg", + "spar_bench/sample_004270/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4271, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of table (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004271/000.jpg", + "spar_bench/sample_004271/001.jpg", + "spar_bench/sample_004271/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4272, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of recycling bin (red point). Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004272/000.jpg", + "spar_bench/sample_004272/001.jpg", + "spar_bench/sample_004272/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4273, + "data_source": "SPAR-Bench", + "question": "How many meters away is armchair (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004273/000.jpg", + "spar_bench/sample_004273/001.jpg", + "spar_bench/sample_004273/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4274, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of desk? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004274/000.jpg", + "spar_bench/sample_004274/001.jpg", + "spar_bench/sample_004274/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4275, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of table (red point)? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004275/000.jpg", + "spar_bench/sample_004275/001.jpg", + "spar_bench/sample_004275/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4276, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters from the observer to jar (red point)? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004276/000.jpg", + "spar_bench/sample_004276/001.jpg", + "spar_bench/sample_004276/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4277, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of kitchen cabinet (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004277/000.jpg", + "spar_bench/sample_004277/001.jpg", + "spar_bench/sample_004277/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4278, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of range hood? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004278/000.jpg", + "spar_bench/sample_004278/001.jpg", + "spar_bench/sample_004278/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4279, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004279/000.jpg", + "spar_bench/sample_004279/001.jpg", + "spar_bench/sample_004279/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4280, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of bulletin board (red point)? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004280/000.jpg", + "spar_bench/sample_004280/001.jpg", + "spar_bench/sample_004280/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4281, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of table? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004281/000.jpg", + "spar_bench/sample_004281/001.jpg", + "spar_bench/sample_004281/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4282, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of copier (red point) in the photo? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004282/000.jpg", + "spar_bench/sample_004282/001.jpg", + "spar_bench/sample_004282/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4283, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters from the observer to the center of tv (red point)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004283/000.jpg", + "spar_bench/sample_004283/001.jpg", + "spar_bench/sample_004283/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4284, + "data_source": "SPAR-Bench", + "question": "What is the calculated distance in meters from the observer to the center of radiator (red point)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004284/000.jpg", + "spar_bench/sample_004284/001.jpg", + "spar_bench/sample_004284/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4285, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of crate (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004285/000.jpg", + "spar_bench/sample_004285/001.jpg", + "spar_bench/sample_004285/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4286, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of keyboard (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004286/000.jpg", + "spar_bench/sample_004286/001.jpg", + "spar_bench/sample_004286/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4287, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of chair. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004287/000.jpg", + "spar_bench/sample_004287/001.jpg", + "spar_bench/sample_004287/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4288, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of lamp (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004288/000.jpg", + "spar_bench/sample_004288/001.jpg", + "spar_bench/sample_004288/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4289, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters from the observer\u2019s location to the red point at the center of bag (red point). Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004289/000.jpg", + "spar_bench/sample_004289/001.jpg", + "spar_bench/sample_004289/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4290, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters between sink (red point) and the observer. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004290/000.jpg", + "spar_bench/sample_004290/001.jpg", + "spar_bench/sample_004290/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4291, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters from the observer\u2019s location to the red point at the center of chair (red point). Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004291/000.jpg", + "spar_bench/sample_004291/001.jpg", + "spar_bench/sample_004291/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4292, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of monitor (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004292/000.jpg", + "spar_bench/sample_004292/001.jpg", + "spar_bench/sample_004292/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4293, + "data_source": "SPAR-Bench", + "question": "What is the calculated distance in meters from the observer to the center of papers (red point)? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004293/000.jpg", + "spar_bench/sample_004293/001.jpg", + "spar_bench/sample_004293/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4294, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the center of toilet paper (red point) in this scene? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004294/000.jpg", + "spar_bench/sample_004294/001.jpg", + "spar_bench/sample_004294/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4295, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the person who took the photo and the center of chair (red point) in meters. Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004295/000.jpg", + "spar_bench/sample_004295/001.jpg", + "spar_bench/sample_004295/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4296, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of bathroom vanity in the scene? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004296/000.jpg", + "spar_bench/sample_004296/001.jpg", + "spar_bench/sample_004296/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4297, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of monitor (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004297/000.jpg", + "spar_bench/sample_004297/001.jpg", + "spar_bench/sample_004297/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4298, + "data_source": "SPAR-Bench", + "question": "How far is the center of coffee table (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004298/000.jpg", + "spar_bench/sample_004298/001.jpg", + "spar_bench/sample_004298/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4299, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of sofa chair in the scene? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004299/000.jpg", + "spar_bench/sample_004299/001.jpg", + "spar_bench/sample_004299/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4300, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the person who took the photo and the center of chair (red point) in meters. Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004300/000.jpg", + "spar_bench/sample_004300/001.jpg", + "spar_bench/sample_004300/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4301, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of trash can (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004301/000.jpg", + "spar_bench/sample_004301/001.jpg", + "spar_bench/sample_004301/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4302, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters from the observer to the center of pillow (red point)? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004302/000.jpg", + "spar_bench/sample_004302/001.jpg", + "spar_bench/sample_004302/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4303, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of couch (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004303/000.jpg", + "spar_bench/sample_004303/001.jpg", + "spar_bench/sample_004303/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4304, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of armchair in the scene? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004304/000.jpg", + "spar_bench/sample_004304/001.jpg", + "spar_bench/sample_004304/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4305, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004305/000.jpg", + "spar_bench/sample_004305/001.jpg", + "spar_bench/sample_004305/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4306, + "data_source": "SPAR-Bench", + "question": "Please provide the distance in meters between the observer and the red point at the center of stairs (red point). Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004306/000.jpg", + "spar_bench/sample_004306/001.jpg", + "spar_bench/sample_004306/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4307, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of toilet paper dispenser (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004307/000.jpg", + "spar_bench/sample_004307/001.jpg", + "spar_bench/sample_004307/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4308, + "data_source": "SPAR-Bench", + "question": "How far is the center of trash bin (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004308/000.jpg", + "spar_bench/sample_004308/001.jpg", + "spar_bench/sample_004308/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4309, + "data_source": "SPAR-Bench", + "question": "How many meters away is chair (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004309/000.jpg", + "spar_bench/sample_004309/001.jpg", + "spar_bench/sample_004309/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4310, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of fireplace (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004310/000.jpg", + "spar_bench/sample_004310/001.jpg", + "spar_bench/sample_004310/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4311, + "data_source": "SPAR-Bench", + "question": "How many meters away is compost bin (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004311/000.jpg", + "spar_bench/sample_004311/001.jpg", + "spar_bench/sample_004311/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4312, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters between book (red point) and the observer. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004312/000.jpg", + "spar_bench/sample_004312/001.jpg", + "spar_bench/sample_004312/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4313, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of nightstand (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004313/000.jpg", + "spar_bench/sample_004313/001.jpg", + "spar_bench/sample_004313/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4314, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of chair (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004314/000.jpg", + "spar_bench/sample_004314/001.jpg", + "spar_bench/sample_004314/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4315, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of armchair (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004315/000.jpg", + "spar_bench/sample_004315/001.jpg", + "spar_bench/sample_004315/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4316, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of clothes (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004316/000.jpg", + "spar_bench/sample_004316/001.jpg", + "spar_bench/sample_004316/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4317, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004317/000.jpg", + "spar_bench/sample_004317/001.jpg", + "spar_bench/sample_004317/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4318, + "data_source": "SPAR-Bench", + "question": "What is the separation in meters between the observer and the center of bathroom stall door (red point)? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004318/000.jpg", + "spar_bench/sample_004318/001.jpg", + "spar_bench/sample_004318/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4319, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of books (red point)? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004319/000.jpg", + "spar_bench/sample_004319/001.jpg", + "spar_bench/sample_004319/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4320, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of case of water bottles (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004320/000.jpg", + "spar_bench/sample_004320/001.jpg", + "spar_bench/sample_004320/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4321, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of blanket? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004321/000.jpg", + "spar_bench/sample_004321/001.jpg", + "spar_bench/sample_004321/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4322, + "data_source": "SPAR-Bench", + "question": "What is the approximate distance in meters from the observer to the center of keyboard (red point)? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004322/000.jpg", + "spar_bench/sample_004322/001.jpg", + "spar_bench/sample_004322/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4323, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of bin (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004323/000.jpg", + "spar_bench/sample_004323/001.jpg", + "spar_bench/sample_004323/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4324, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of kitchen counter (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004324/000.jpg", + "spar_bench/sample_004324/001.jpg", + "spar_bench/sample_004324/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4325, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of vending machine (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004325/000.jpg", + "spar_bench/sample_004325/001.jpg", + "spar_bench/sample_004325/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4326, + "data_source": "SPAR-Bench", + "question": "What is the calculated distance in meters from the observer to the center of toilet (red point)? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004326/000.jpg", + "spar_bench/sample_004326/001.jpg", + "spar_bench/sample_004326/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4327, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of monitor (red point)? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004327/000.jpg", + "spar_bench/sample_004327/001.jpg", + "spar_bench/sample_004327/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4328, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of machine (red point). Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004328/000.jpg", + "spar_bench/sample_004328/001.jpg", + "spar_bench/sample_004328/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4329, + "data_source": "SPAR-Bench", + "question": "How far is the center of water bottle (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004329/000.jpg", + "spar_bench/sample_004329/001.jpg", + "spar_bench/sample_004329/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4330, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of office chair in the image? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004330/000.jpg", + "spar_bench/sample_004330/001.jpg", + "spar_bench/sample_004330/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4331, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of bench (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004331/000.jpg", + "spar_bench/sample_004331/001.jpg", + "spar_bench/sample_004331/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4332, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of chair (red point). Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004332/000.jpg", + "spar_bench/sample_004332/001.jpg", + "spar_bench/sample_004332/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4333, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to office chair (red point)? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004333/000.jpg", + "spar_bench/sample_004333/001.jpg", + "spar_bench/sample_004333/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4334, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of soda stream (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004334/000.jpg", + "spar_bench/sample_004334/001.jpg", + "spar_bench/sample_004334/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4335, + "data_source": "SPAR-Bench", + "question": "How far away, measured in meters, is the observer from the center of file cabinet (red point)? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004335/000.jpg", + "spar_bench/sample_004335/001.jpg", + "spar_bench/sample_004335/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4336, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of picture (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004336/000.jpg", + "spar_bench/sample_004336/001.jpg", + "spar_bench/sample_004336/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4337, + "data_source": "SPAR-Bench", + "question": "What is the spatial distance in meters between the person who took the photo and the center of box (red point)? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004337/000.jpg", + "spar_bench/sample_004337/001.jpg", + "spar_bench/sample_004337/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4338, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of trash bin (red point) in the photo? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004338/000.jpg", + "spar_bench/sample_004338/001.jpg", + "spar_bench/sample_004338/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4339, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of coatrack (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004339/000.jpg", + "spar_bench/sample_004339/001.jpg", + "spar_bench/sample_004339/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4340, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of pillow (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004340/000.jpg", + "spar_bench/sample_004340/001.jpg", + "spar_bench/sample_004340/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4341, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to chair (red point)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004341/000.jpg", + "spar_bench/sample_004341/001.jpg", + "spar_bench/sample_004341/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4342, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of pillow (red point) from the observer\u2019s position in the image? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004342/000.jpg", + "spar_bench/sample_004342/001.jpg", + "spar_bench/sample_004342/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4343, + "data_source": "SPAR-Bench", + "question": "How many meters away is toilet (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004343/000.jpg", + "spar_bench/sample_004343/001.jpg", + "spar_bench/sample_004343/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4344, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of pillow? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004344/000.jpg", + "spar_bench/sample_004344/001.jpg", + "spar_bench/sample_004344/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4345, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters from the observer to the center of window (red point)? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004345/000.jpg", + "spar_bench/sample_004345/001.jpg", + "spar_bench/sample_004345/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4346, + "data_source": "SPAR-Bench", + "question": "Please provide the distance in meters between the observer and the red point at the center of table (red point). Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004346/000.jpg", + "spar_bench/sample_004346/001.jpg", + "spar_bench/sample_004346/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4347, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of desk (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004347/000.jpg", + "spar_bench/sample_004347/001.jpg", + "spar_bench/sample_004347/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4348, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of sofa chair (red point). Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004348/000.jpg", + "spar_bench/sample_004348/001.jpg", + "spar_bench/sample_004348/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4349, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of box. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004349/000.jpg", + "spar_bench/sample_004349/001.jpg", + "spar_bench/sample_004349/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4350, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the red point at the center of curtain from the observer in this image? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004350/000.jpg", + "spar_bench/sample_004350/001.jpg", + "spar_bench/sample_004350/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4351, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the person who took the photo and the center of chair (red point) in meters. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004351/000.jpg", + "spar_bench/sample_004351/001.jpg", + "spar_bench/sample_004351/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4352, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of toilet (red point)? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004352/000.jpg", + "spar_bench/sample_004352/001.jpg", + "spar_bench/sample_004352/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4353, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to lamp (red point)? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004353/000.jpg", + "spar_bench/sample_004353/001.jpg", + "spar_bench/sample_004353/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4354, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the center of chair (red point) in this scene? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004354/000.jpg", + "spar_bench/sample_004354/001.jpg", + "spar_bench/sample_004354/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4355, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of chair (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004355/000.jpg", + "spar_bench/sample_004355/001.jpg", + "spar_bench/sample_004355/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4356, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of laptop (red point)? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004356/000.jpg", + "spar_bench/sample_004356/001.jpg", + "spar_bench/sample_004356/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4357, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of table (red point)? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004357/000.jpg", + "spar_bench/sample_004357/001.jpg", + "spar_bench/sample_004357/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4358, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of chair (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004358/000.jpg", + "spar_bench/sample_004358/001.jpg", + "spar_bench/sample_004358/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4359, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of shower control valve (red point)? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004359/000.jpg", + "spar_bench/sample_004359/001.jpg", + "spar_bench/sample_004359/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4360, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of bed (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004360/000.jpg", + "spar_bench/sample_004360/001.jpg", + "spar_bench/sample_004360/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4361, + "data_source": "SPAR-Bench", + "question": "What is the Euclidean distance from the person who captured the image to the center of bookshelf (red point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004361/000.jpg", + "spar_bench/sample_004361/001.jpg", + "spar_bench/sample_004361/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4362, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of cabinets (red point). Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004362/000.jpg", + "spar_bench/sample_004362/001.jpg", + "spar_bench/sample_004362/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4363, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of computer tower in the scene? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004363/000.jpg", + "spar_bench/sample_004363/001.jpg", + "spar_bench/sample_004363/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4364, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of chair (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004364/000.jpg", + "spar_bench/sample_004364/001.jpg", + "spar_bench/sample_004364/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4365, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters from the observer to desk (red point)? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004365/000.jpg", + "spar_bench/sample_004365/001.jpg", + "spar_bench/sample_004365/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4366, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of table (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004366/000.jpg", + "spar_bench/sample_004366/001.jpg", + "spar_bench/sample_004366/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4367, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of toilet seat cover dispenser (red point). Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004367/000.jpg", + "spar_bench/sample_004367/001.jpg", + "spar_bench/sample_004367/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4368, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of toilet paper dispenser (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004368/000.jpg", + "spar_bench/sample_004368/001.jpg", + "spar_bench/sample_004368/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4369, + "data_source": "SPAR-Bench", + "question": "From the perspective of the person who took the image, how far is backpack (red point)? Provide the distance in meters. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004369/000.jpg", + "spar_bench/sample_004369/001.jpg", + "spar_bench/sample_004369/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4370, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of armchair (red point). Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004370/000.jpg", + "spar_bench/sample_004370/001.jpg", + "spar_bench/sample_004370/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4371, + "data_source": "SPAR-Bench", + "question": "How far is the center of monitor (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004371/000.jpg", + "spar_bench/sample_004371/001.jpg", + "spar_bench/sample_004371/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4372, + "data_source": "SPAR-Bench", + "question": "What is the spatial distance in meters between the person who took the photo and the center of toilet (red point)? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004372/000.jpg", + "spar_bench/sample_004372/001.jpg", + "spar_bench/sample_004372/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4373, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of mattress (red point). Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004373/000.jpg", + "spar_bench/sample_004373/001.jpg", + "spar_bench/sample_004373/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4374, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of paper in the image? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004374/000.jpg", + "spar_bench/sample_004374/001.jpg", + "spar_bench/sample_004374/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4375, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of banana holder (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004375/000.jpg", + "spar_bench/sample_004375/001.jpg", + "spar_bench/sample_004375/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4376, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of ironing board (red point)? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004376/000.jpg", + "spar_bench/sample_004376/001.jpg", + "spar_bench/sample_004376/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4377, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the center of crib (red point) in this scene? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004377/000.jpg", + "spar_bench/sample_004377/001.jpg", + "spar_bench/sample_004377/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4378, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of couch (red point)? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004378/000.jpg", + "spar_bench/sample_004378/001.jpg", + "spar_bench/sample_004378/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4379, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of armchair (red point)? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004379/000.jpg", + "spar_bench/sample_004379/001.jpg", + "spar_bench/sample_004379/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4380, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of bag (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004380/000.jpg", + "spar_bench/sample_004380/001.jpg", + "spar_bench/sample_004380/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4381, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of chair (red point) from the observer\u2019s position in the image? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004381/000.jpg", + "spar_bench/sample_004381/001.jpg", + "spar_bench/sample_004381/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4382, + "data_source": "SPAR-Bench", + "question": "How far is the center of desk (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004382/000.jpg", + "spar_bench/sample_004382/001.jpg", + "spar_bench/sample_004382/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4383, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of table (red point)? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004383/000.jpg", + "spar_bench/sample_004383/001.jpg", + "spar_bench/sample_004383/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4384, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the person who took the photo and the center of shelf (red point) in meters. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004384/000.jpg", + "spar_bench/sample_004384/001.jpg", + "spar_bench/sample_004384/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4385, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of microwave (red point) in the photo? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004385/000.jpg", + "spar_bench/sample_004385/001.jpg", + "spar_bench/sample_004385/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4386, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of armchair (red point)? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004386/000.jpg", + "spar_bench/sample_004386/001.jpg", + "spar_bench/sample_004386/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4387, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the center of chair (red point) in this scene? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004387/000.jpg", + "spar_bench/sample_004387/001.jpg", + "spar_bench/sample_004387/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4388, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-coffee table distance in meters, considering the center of coffee table (red point)? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004388/000.jpg", + "spar_bench/sample_004388/001.jpg", + "spar_bench/sample_004388/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4389, + "data_source": "SPAR-Bench", + "question": "What is the calculated distance in meters from the observer to the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004389/000.jpg", + "spar_bench/sample_004389/001.jpg", + "spar_bench/sample_004389/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4390, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of chair? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004390/000.jpg", + "spar_bench/sample_004390/001.jpg", + "spar_bench/sample_004390/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4391, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of mirror in the scene? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004391/000.jpg", + "spar_bench/sample_004391/001.jpg", + "spar_bench/sample_004391/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4392, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-box distance in meters, considering the center of box (red point)? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004392/000.jpg", + "spar_bench/sample_004392/001.jpg", + "spar_bench/sample_004392/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4393, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004393/000.jpg", + "spar_bench/sample_004393/001.jpg", + "spar_bench/sample_004393/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4394, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of monitor (red point)? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004394/000.jpg", + "spar_bench/sample_004394/001.jpg", + "spar_bench/sample_004394/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4395, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-stool distance in meters, considering the center of stool (red point)? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004395/000.jpg", + "spar_bench/sample_004395/001.jpg", + "spar_bench/sample_004395/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4396, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of shower curtain (red point)? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004396/000.jpg", + "spar_bench/sample_004396/001.jpg", + "spar_bench/sample_004396/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4397, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of table (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004397/000.jpg", + "spar_bench/sample_004397/001.jpg", + "spar_bench/sample_004397/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4398, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of table (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004398/000.jpg", + "spar_bench/sample_004398/001.jpg", + "spar_bench/sample_004398/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4399, + "data_source": "SPAR-Bench", + "question": "What is the Euclidean distance from the person who captured the image to the center of jacket (red point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004399/000.jpg", + "spar_bench/sample_004399/001.jpg", + "spar_bench/sample_004399/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4400, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of stool (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004400/000.jpg", + "spar_bench/sample_004400/001.jpg", + "spar_bench/sample_004400/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4401, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of trash can? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004401/000.jpg", + "spar_bench/sample_004401/001.jpg", + "spar_bench/sample_004401/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4402, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of closet door (red point). Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004402/000.jpg", + "spar_bench/sample_004402/001.jpg", + "spar_bench/sample_004402/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4403, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of armchair (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004403/000.jpg", + "spar_bench/sample_004403/001.jpg", + "spar_bench/sample_004403/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4404, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of backpack (red point). Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004404/000.jpg", + "spar_bench/sample_004404/001.jpg", + "spar_bench/sample_004404/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4405, + "data_source": "SPAR-Bench", + "question": "How far is the center of cabinet (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004405/000.jpg", + "spar_bench/sample_004405/001.jpg", + "spar_bench/sample_004405/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4406, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of trash can in the image? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004406/000.jpg", + "spar_bench/sample_004406/001.jpg", + "spar_bench/sample_004406/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4407, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of sink in the image? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004407/000.jpg", + "spar_bench/sample_004407/001.jpg", + "spar_bench/sample_004407/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4408, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters from the observer to the center of keyboard (red point)? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004408/000.jpg", + "spar_bench/sample_004408/001.jpg", + "spar_bench/sample_004408/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4409, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of office chair. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004409/000.jpg", + "spar_bench/sample_004409/001.jpg", + "spar_bench/sample_004409/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4410, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of picture. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004410/000.jpg", + "spar_bench/sample_004410/001.jpg", + "spar_bench/sample_004410/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4411, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters between ottoman (red point) and the observer. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004411/000.jpg", + "spar_bench/sample_004411/001.jpg", + "spar_bench/sample_004411/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4412, + "data_source": "SPAR-Bench", + "question": "What is the Euclidean distance from the person who captured the image to the center of books (red point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004412/000.jpg", + "spar_bench/sample_004412/001.jpg", + "spar_bench/sample_004412/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4413, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of shoes (red point). Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004413/000.jpg", + "spar_bench/sample_004413/001.jpg", + "spar_bench/sample_004413/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4414, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of bench (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004414/000.jpg", + "spar_bench/sample_004414/001.jpg", + "spar_bench/sample_004414/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4415, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of chair (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004415/000.jpg", + "spar_bench/sample_004415/001.jpg", + "spar_bench/sample_004415/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4416, + "data_source": "SPAR-Bench", + "question": "How far away, measured in meters, is the observer from the center of sink (red point)? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004416/000.jpg", + "spar_bench/sample_004416/001.jpg", + "spar_bench/sample_004416/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4417, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of book (red point)? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004417/000.jpg", + "spar_bench/sample_004417/001.jpg", + "spar_bench/sample_004417/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4418, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of printer (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004418/000.jpg", + "spar_bench/sample_004418/001.jpg", + "spar_bench/sample_004418/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4419, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of toilet (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004419/000.jpg", + "spar_bench/sample_004419/001.jpg", + "spar_bench/sample_004419/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4420, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of shelf (red point)? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004420/000.jpg", + "spar_bench/sample_004420/001.jpg", + "spar_bench/sample_004420/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4421, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of chair? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004421/000.jpg", + "spar_bench/sample_004421/001.jpg", + "spar_bench/sample_004421/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4422, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of couch (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004422/000.jpg", + "spar_bench/sample_004422/001.jpg", + "spar_bench/sample_004422/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4423, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters from the observer to sink (red point)? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004423/000.jpg", + "spar_bench/sample_004423/001.jpg", + "spar_bench/sample_004423/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4424, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of recycling bin (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004424/000.jpg", + "spar_bench/sample_004424/001.jpg", + "spar_bench/sample_004424/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4425, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of bathroom counter (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004425/000.jpg", + "spar_bench/sample_004425/001.jpg", + "spar_bench/sample_004425/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4426, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of chair (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004426/000.jpg", + "spar_bench/sample_004426/001.jpg", + "spar_bench/sample_004426/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4427, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the center of telephone (red point) in this scene? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004427/000.jpg", + "spar_bench/sample_004427/001.jpg", + "spar_bench/sample_004427/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4428, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of monitor (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004428/000.jpg", + "spar_bench/sample_004428/001.jpg", + "spar_bench/sample_004428/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4429, + "data_source": "SPAR-Bench", + "question": "How far is the center of table (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004429/000.jpg", + "spar_bench/sample_004429/001.jpg", + "spar_bench/sample_004429/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4430, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of chair (red point). Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004430/000.jpg", + "spar_bench/sample_004430/001.jpg", + "spar_bench/sample_004430/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4431, + "data_source": "SPAR-Bench", + "question": "How far is the center of container (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004431/000.jpg", + "spar_bench/sample_004431/001.jpg", + "spar_bench/sample_004431/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4432, + "data_source": "SPAR-Bench", + "question": "Please provide the distance in meters between the observer and the red point at the center of chair (red point). Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004432/000.jpg", + "spar_bench/sample_004432/001.jpg", + "spar_bench/sample_004432/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4433, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters between dispenser (red point) and the observer. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004433/000.jpg", + "spar_bench/sample_004433/001.jpg", + "spar_bench/sample_004433/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4434, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of bottle? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004434/000.jpg", + "spar_bench/sample_004434/001.jpg", + "spar_bench/sample_004434/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4435, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of table? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004435/000.jpg", + "spar_bench/sample_004435/001.jpg", + "spar_bench/sample_004435/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4436, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters from the observer to the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004436/000.jpg", + "spar_bench/sample_004436/001.jpg", + "spar_bench/sample_004436/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4437, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004437/000.jpg", + "spar_bench/sample_004437/001.jpg", + "spar_bench/sample_004437/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4438, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of pipe (red point). Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004438/000.jpg", + "spar_bench/sample_004438/001.jpg", + "spar_bench/sample_004438/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4439, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of shelf (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004439/000.jpg", + "spar_bench/sample_004439/001.jpg", + "spar_bench/sample_004439/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4440, + "data_source": "SPAR-Bench", + "question": "What is the separation in meters between the observer and the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004440/000.jpg", + "spar_bench/sample_004440/001.jpg", + "spar_bench/sample_004440/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 4441, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to table (red point)? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004441/000.jpg", + "spar_bench/sample_004441/001.jpg", + "spar_bench/sample_004441/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4442, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of kitchen counter (red point)? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004442/000.jpg", + "spar_bench/sample_004442/001.jpg", + "spar_bench/sample_004442/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4443, + "data_source": "SPAR-Bench", + "question": "What is the approximate distance in meters from the observer to the center of windowsill (red point)? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004443/000.jpg", + "spar_bench/sample_004443/001.jpg", + "spar_bench/sample_004443/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4444, + "data_source": "SPAR-Bench", + "question": "How far is the center of refrigerator (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004444/000.jpg", + "spar_bench/sample_004444/001.jpg", + "spar_bench/sample_004444/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4445, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of light switch in the image? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004445/000.jpg", + "spar_bench/sample_004445/001.jpg", + "spar_bench/sample_004445/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4446, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of multiplug (red point). Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004446/000.jpg", + "spar_bench/sample_004446/001.jpg", + "spar_bench/sample_004446/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4447, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of light switch in the image? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004447/000.jpg", + "spar_bench/sample_004447/001.jpg", + "spar_bench/sample_004447/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4448, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of cup (red point)? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004448/000.jpg", + "spar_bench/sample_004448/001.jpg", + "spar_bench/sample_004448/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4449, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of book (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004449/000.jpg", + "spar_bench/sample_004449/001.jpg", + "spar_bench/sample_004449/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4450, + "data_source": "SPAR-Bench", + "question": "Can you find the Euclidean distance in meters between the observer and the center of hairdryer (red point)? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004450/000.jpg", + "spar_bench/sample_004450/001.jpg", + "spar_bench/sample_004450/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4451, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of bookshelf (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004451/000.jpg", + "spar_bench/sample_004451/001.jpg", + "spar_bench/sample_004451/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4452, + "data_source": "SPAR-Bench", + "question": "From the perspective of the person who took the image, how far is pipe (red point)? Provide the distance in meters. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004452/000.jpg", + "spar_bench/sample_004452/001.jpg", + "spar_bench/sample_004452/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4453, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of structure (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004453/000.jpg", + "spar_bench/sample_004453/001.jpg", + "spar_bench/sample_004453/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4454, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of pipe (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004454/000.jpg", + "spar_bench/sample_004454/001.jpg", + "spar_bench/sample_004454/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4455, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of plant pot (red point)? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004455/000.jpg", + "spar_bench/sample_004455/001.jpg", + "spar_bench/sample_004455/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4456, + "data_source": "SPAR-Bench", + "question": "What is the approximate distance in meters from the observer to the center of shelf (red point)? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004456/000.jpg", + "spar_bench/sample_004456/001.jpg", + "spar_bench/sample_004456/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4457, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters between storage cabinet (red point) and the observer. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004457/000.jpg", + "spar_bench/sample_004457/001.jpg", + "spar_bench/sample_004457/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4458, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of mirror in the image? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004458/000.jpg", + "spar_bench/sample_004458/001.jpg", + "spar_bench/sample_004458/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4459, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of panel (red point). Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004459/000.jpg", + "spar_bench/sample_004459/001.jpg", + "spar_bench/sample_004459/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4460, + "data_source": "SPAR-Bench", + "question": "What is the Euclidean distance from the person who captured the image to the center of kitchen cabinet (red point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004460/000.jpg", + "spar_bench/sample_004460/001.jpg", + "spar_bench/sample_004460/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4461, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of monitor (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004461/000.jpg", + "spar_bench/sample_004461/001.jpg", + "spar_bench/sample_004461/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4462, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the person who took the photo and the center of storage cabinet (red point) in meters. Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004462/000.jpg", + "spar_bench/sample_004462/001.jpg", + "spar_bench/sample_004462/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4463, + "data_source": "SPAR-Bench", + "question": "From the perspective of the person who took the image, how far is box (red point)? Provide the distance in meters. Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004463/000.jpg", + "spar_bench/sample_004463/001.jpg", + "spar_bench/sample_004463/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4464, + "data_source": "SPAR-Bench", + "question": "What is the calculated distance in meters from the observer to the center of knife set (red point)? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004464/000.jpg", + "spar_bench/sample_004464/001.jpg", + "spar_bench/sample_004464/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4465, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of keyboard (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004465/000.jpg", + "spar_bench/sample_004465/001.jpg", + "spar_bench/sample_004465/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4466, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the center of printer (red point) in this scene? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004466/000.jpg", + "spar_bench/sample_004466/001.jpg", + "spar_bench/sample_004466/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4467, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of sink in the scene? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004467/000.jpg", + "spar_bench/sample_004467/001.jpg", + "spar_bench/sample_004467/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4468, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters from the observer\u2019s location to the red point at the center of chair (red point). Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004468/000.jpg", + "spar_bench/sample_004468/001.jpg", + "spar_bench/sample_004468/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4469, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to refrigerator (red point)? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004469/000.jpg", + "spar_bench/sample_004469/001.jpg", + "spar_bench/sample_004469/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4470, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of table (red point). Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004470/000.jpg", + "spar_bench/sample_004470/001.jpg", + "spar_bench/sample_004470/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4471, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of light switch (red point). Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004471/000.jpg", + "spar_bench/sample_004471/001.jpg", + "spar_bench/sample_004471/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4472, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of cup (red point)? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004472/000.jpg", + "spar_bench/sample_004472/001.jpg", + "spar_bench/sample_004472/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4473, + "data_source": "SPAR-Bench", + "question": "How far is the center of decoration (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004473/000.jpg", + "spar_bench/sample_004473/001.jpg", + "spar_bench/sample_004473/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4474, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of split (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004474/000.jpg", + "spar_bench/sample_004474/001.jpg", + "spar_bench/sample_004474/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4475, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of towel (red point) in the photo? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004475/000.jpg", + "spar_bench/sample_004475/001.jpg", + "spar_bench/sample_004475/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4476, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of SPLIT (red point)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004476/000.jpg", + "spar_bench/sample_004476/001.jpg", + "spar_bench/sample_004476/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4477, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the person who took the photo and the center of table (red point) in meters. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004477/000.jpg", + "spar_bench/sample_004477/001.jpg", + "spar_bench/sample_004477/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4478, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of table (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004478/000.jpg", + "spar_bench/sample_004478/001.jpg", + "spar_bench/sample_004478/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4479, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters from the observer to the center of kitchen drawer (red point)? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004479/000.jpg", + "spar_bench/sample_004479/001.jpg", + "spar_bench/sample_004479/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4480, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of box (red point)? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004480/000.jpg", + "spar_bench/sample_004480/001.jpg", + "spar_bench/sample_004480/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4481, + "data_source": "SPAR-Bench", + "question": "How many meters away is books (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004481/000.jpg", + "spar_bench/sample_004481/001.jpg", + "spar_bench/sample_004481/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4482, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of table (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004482/000.jpg", + "spar_bench/sample_004482/001.jpg", + "spar_bench/sample_004482/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4483, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of box (red point)? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004483/000.jpg", + "spar_bench/sample_004483/001.jpg", + "spar_bench/sample_004483/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4484, + "data_source": "SPAR-Bench", + "question": "How far is the center of sink counter (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004484/000.jpg", + "spar_bench/sample_004484/001.jpg", + "spar_bench/sample_004484/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4485, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of storage rack (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004485/000.jpg", + "spar_bench/sample_004485/001.jpg", + "spar_bench/sample_004485/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4486, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of light switch (red point)? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004486/000.jpg", + "spar_bench/sample_004486/001.jpg", + "spar_bench/sample_004486/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4487, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of computer tower (red point). Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004487/000.jpg", + "spar_bench/sample_004487/001.jpg", + "spar_bench/sample_004487/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4488, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of pipe (red point). Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004488/000.jpg", + "spar_bench/sample_004488/001.jpg", + "spar_bench/sample_004488/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4489, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of power socket (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004489/000.jpg", + "spar_bench/sample_004489/001.jpg", + "spar_bench/sample_004489/002.jpg" + ], + "data_type": "multi_view", + "answer": "7.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4490, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of light switch (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004490/000.jpg", + "spar_bench/sample_004490/001.jpg", + "spar_bench/sample_004490/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4491, + "data_source": "SPAR-Bench", + "question": "How far is the red point at the center of chair (red point) from the person who took the image? State the result in meters. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004491/000.jpg", + "spar_bench/sample_004491/001.jpg", + "spar_bench/sample_004491/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4492, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of power socket (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004492/000.jpg", + "spar_bench/sample_004492/001.jpg", + "spar_bench/sample_004492/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4493, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of kitchen cabinet (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004493/000.jpg", + "spar_bench/sample_004493/001.jpg", + "spar_bench/sample_004493/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4494, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of book (red point)? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004494/000.jpg", + "spar_bench/sample_004494/001.jpg", + "spar_bench/sample_004494/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4495, + "data_source": "SPAR-Bench", + "question": "From the perspective of the person who took the image, how far is bedside lamp (red point)? Provide the distance in meters. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004495/000.jpg", + "spar_bench/sample_004495/001.jpg", + "spar_bench/sample_004495/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4496, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of power socket? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004496/000.jpg", + "spar_bench/sample_004496/001.jpg", + "spar_bench/sample_004496/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4497, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of wooden plank (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004497/000.jpg", + "spar_bench/sample_004497/001.jpg", + "spar_bench/sample_004497/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4498, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of chair (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004498/000.jpg", + "spar_bench/sample_004498/001.jpg", + "spar_bench/sample_004498/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4499, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of whiteboard in the scene? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004499/000.jpg", + "spar_bench/sample_004499/001.jpg", + "spar_bench/sample_004499/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4500, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of box (red point) in the photo? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004500/000.jpg", + "spar_bench/sample_004500/001.jpg", + "spar_bench/sample_004500/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4501, + "data_source": "SPAR-Bench", + "question": "How many meters away is stool (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004501/000.jpg", + "spar_bench/sample_004501/001.jpg", + "spar_bench/sample_004501/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4502, + "data_source": "SPAR-Bench", + "question": "Please calculate the exact distance in meters between the observer\u2019s position and the center of chair (red point). Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004502/000.jpg", + "spar_bench/sample_004502/001.jpg", + "spar_bench/sample_004502/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4503, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of cardboard box (red point)? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004503/000.jpg", + "spar_bench/sample_004503/001.jpg", + "spar_bench/sample_004503/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4504, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of bottle (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004504/000.jpg", + "spar_bench/sample_004504/001.jpg", + "spar_bench/sample_004504/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4505, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of beanbag (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004505/000.jpg", + "spar_bench/sample_004505/001.jpg", + "spar_bench/sample_004505/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4506, + "data_source": "SPAR-Bench", + "question": "How far is the center of monitor (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004506/000.jpg", + "spar_bench/sample_004506/001.jpg", + "spar_bench/sample_004506/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4507, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of power socket. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004507/000.jpg", + "spar_bench/sample_004507/001.jpg", + "spar_bench/sample_004507/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4508, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of structure (red point)? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004508/000.jpg", + "spar_bench/sample_004508/001.jpg", + "spar_bench/sample_004508/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4509, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of plate (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004509/000.jpg", + "spar_bench/sample_004509/001.jpg", + "spar_bench/sample_004509/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4510, + "data_source": "SPAR-Bench", + "question": "What is the separation in meters between the observer and the center of SPLIT (red point)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004510/000.jpg", + "spar_bench/sample_004510/001.jpg", + "spar_bench/sample_004510/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4511, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of kettle (red point). Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004511/000.jpg", + "spar_bench/sample_004511/001.jpg", + "spar_bench/sample_004511/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4512, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of bench (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004512/000.jpg", + "spar_bench/sample_004512/001.jpg", + "spar_bench/sample_004512/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4513, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of dishwasher (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004513/000.jpg", + "spar_bench/sample_004513/001.jpg", + "spar_bench/sample_004513/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4514, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of towel (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004514/000.jpg", + "spar_bench/sample_004514/001.jpg", + "spar_bench/sample_004514/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4515, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of table? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004515/000.jpg", + "spar_bench/sample_004515/001.jpg", + "spar_bench/sample_004515/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4516, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of window sill (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004516/000.jpg", + "spar_bench/sample_004516/001.jpg", + "spar_bench/sample_004516/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4517, + "data_source": "SPAR-Bench", + "question": "What is the separation in meters between the observer and the center of SPLIT (red point)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004517/000.jpg", + "spar_bench/sample_004517/001.jpg", + "spar_bench/sample_004517/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4518, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of monitor (red point) from the observer\u2019s position in the image? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004518/000.jpg", + "spar_bench/sample_004518/001.jpg", + "spar_bench/sample_004518/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4519, + "data_source": "SPAR-Bench", + "question": "How far is the center of SPLIT (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004519/000.jpg", + "spar_bench/sample_004519/001.jpg", + "spar_bench/sample_004519/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4520, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-paper ram distance in meters, considering the center of paper ram (red point)? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004520/000.jpg", + "spar_bench/sample_004520/001.jpg", + "spar_bench/sample_004520/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4521, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of cabinet (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004521/000.jpg", + "spar_bench/sample_004521/001.jpg", + "spar_bench/sample_004521/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4522, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters from the observer to the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004522/000.jpg", + "spar_bench/sample_004522/001.jpg", + "spar_bench/sample_004522/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4523, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to telephone (red point)? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004523/000.jpg", + "spar_bench/sample_004523/001.jpg", + "spar_bench/sample_004523/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4524, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of pipe (red point)? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004524/000.jpg", + "spar_bench/sample_004524/001.jpg", + "spar_bench/sample_004524/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4525, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of window sill (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004525/000.jpg", + "spar_bench/sample_004525/001.jpg", + "spar_bench/sample_004525/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4526, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of book (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004526/000.jpg", + "spar_bench/sample_004526/001.jpg", + "spar_bench/sample_004526/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4527, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of light switch (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004527/000.jpg", + "spar_bench/sample_004527/001.jpg", + "spar_bench/sample_004527/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4528, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the distance to the center of flush button (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004528/000.jpg", + "spar_bench/sample_004528/001.jpg", + "spar_bench/sample_004528/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4529, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of split (red point)? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004529/000.jpg", + "spar_bench/sample_004529/001.jpg", + "spar_bench/sample_004529/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4530, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of computer tower (red point)? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004530/000.jpg", + "spar_bench/sample_004530/001.jpg", + "spar_bench/sample_004530/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4531, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of monitor (red point). Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004531/000.jpg", + "spar_bench/sample_004531/001.jpg", + "spar_bench/sample_004531/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4532, + "data_source": "SPAR-Bench", + "question": "From the perspective of the person who took the image, how far is box (red point)? Provide the distance in meters. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004532/000.jpg", + "spar_bench/sample_004532/001.jpg", + "spar_bench/sample_004532/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4533, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the center of laundry hamper (red point) in this scene? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004533/000.jpg", + "spar_bench/sample_004533/001.jpg", + "spar_bench/sample_004533/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4534, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of lint roller (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004534/000.jpg", + "spar_bench/sample_004534/001.jpg", + "spar_bench/sample_004534/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4535, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of office chair (red point)? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004535/000.jpg", + "spar_bench/sample_004535/001.jpg", + "spar_bench/sample_004535/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4536, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of box (red point)? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004536/000.jpg", + "spar_bench/sample_004536/001.jpg", + "spar_bench/sample_004536/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4537, + "data_source": "SPAR-Bench", + "question": "How far is the center of box (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004537/000.jpg", + "spar_bench/sample_004537/001.jpg", + "spar_bench/sample_004537/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4538, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-sink distance in meters, considering the center of sink (red point)? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004538/000.jpg", + "spar_bench/sample_004538/001.jpg", + "spar_bench/sample_004538/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4539, + "data_source": "SPAR-Bench", + "question": "Determine the Euclidean distance in meters between the center of trash can (red point) and the observer in the image. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004539/000.jpg", + "spar_bench/sample_004539/001.jpg", + "spar_bench/sample_004539/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4540, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of cup (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004540/000.jpg", + "spar_bench/sample_004540/001.jpg", + "spar_bench/sample_004540/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4541, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of cup (red point)? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004541/000.jpg", + "spar_bench/sample_004541/001.jpg", + "spar_bench/sample_004541/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4542, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters from the observer to book (red point)? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004542/000.jpg", + "spar_bench/sample_004542/001.jpg", + "spar_bench/sample_004542/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4543, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of towel (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004543/000.jpg", + "spar_bench/sample_004543/001.jpg", + "spar_bench/sample_004543/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4544, + "data_source": "SPAR-Bench", + "question": "Based on the photo, how far is the center of box (red point) from the observer? Report in meters. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004544/000.jpg", + "spar_bench/sample_004544/001.jpg", + "spar_bench/sample_004544/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4545, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of bottle (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004545/000.jpg", + "spar_bench/sample_004545/001.jpg", + "spar_bench/sample_004545/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4546, + "data_source": "SPAR-Bench", + "question": "What is the red point\u2019s (center of cardboard box (red point)) distance in meters to the observer in the photo? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004546/000.jpg", + "spar_bench/sample_004546/001.jpg", + "spar_bench/sample_004546/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4547, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of heater (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004547/000.jpg", + "spar_bench/sample_004547/001.jpg", + "spar_bench/sample_004547/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4548, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of power socket (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004548/000.jpg", + "spar_bench/sample_004548/001.jpg", + "spar_bench/sample_004548/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4549, + "data_source": "SPAR-Bench", + "question": "From the person\u2019s position who took the photo, what is the distance to the center of coffee machine (red point)? Express it in meters. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004549/000.jpg", + "spar_bench/sample_004549/001.jpg", + "spar_bench/sample_004549/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4550, + "data_source": "SPAR-Bench", + "question": "What is the Euclidean distance from the person who captured the image to the center of chair (red point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Enter a single numeric response and no other details.", + "image_path": [ + "spar_bench/sample_004550/000.jpg", + "spar_bench/sample_004550/001.jpg", + "spar_bench/sample_004550/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4551, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of sink (red point)? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004551/000.jpg", + "spar_bench/sample_004551/001.jpg", + "spar_bench/sample_004551/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4552, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of trash bin (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004552/000.jpg", + "spar_bench/sample_004552/001.jpg", + "spar_bench/sample_004552/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4553, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of bathroom counter in the scene? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004553/000.jpg", + "spar_bench/sample_004553/001.jpg", + "spar_bench/sample_004553/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4554, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to chair (red point)? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004554/000.jpg", + "spar_bench/sample_004554/001.jpg", + "spar_bench/sample_004554/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4555, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of jacket (red point)? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004555/000.jpg", + "spar_bench/sample_004555/001.jpg", + "spar_bench/sample_004555/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4556, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004556/000.jpg", + "spar_bench/sample_004556/001.jpg", + "spar_bench/sample_004556/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4557, + "data_source": "SPAR-Bench", + "question": "Based on the image, how far is the center of dishwasher (red point) from the observer? Provide your answer in meters. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004557/000.jpg", + "spar_bench/sample_004557/001.jpg", + "spar_bench/sample_004557/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4558, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of microwave (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Provide only one number for your response.", + "image_path": [ + "spar_bench/sample_004558/000.jpg", + "spar_bench/sample_004558/001.jpg", + "spar_bench/sample_004558/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4559, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters from the observer to the center of paper (red point)? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004559/000.jpg", + "spar_bench/sample_004559/001.jpg", + "spar_bench/sample_004559/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4560, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s measured distance in meters to SPLIT (red point)? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004560/000.jpg", + "spar_bench/sample_004560/001.jpg", + "spar_bench/sample_004560/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4561, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters between the observer and the center of power socket (red point)? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Type in exactly one number as your reply.", + "image_path": [ + "spar_bench/sample_004561/000.jpg", + "spar_bench/sample_004561/001.jpg", + "spar_bench/sample_004561/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4562, + "data_source": "SPAR-Bench", + "question": "What is the separation in meters between the observer and the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004562/000.jpg", + "spar_bench/sample_004562/001.jpg", + "spar_bench/sample_004562/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4563, + "data_source": "SPAR-Bench", + "question": "Please find the Euclidean distance, in meters, between the observer and the center of plug (red point). Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004563/000.jpg", + "spar_bench/sample_004563/001.jpg", + "spar_bench/sample_004563/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4564, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of table (red point)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004564/000.jpg", + "spar_bench/sample_004564/001.jpg", + "spar_bench/sample_004564/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4565, + "data_source": "SPAR-Bench", + "question": "Determine the distance in meters between the observer and the center of towel (red point). Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004565/000.jpg", + "spar_bench/sample_004565/001.jpg", + "spar_bench/sample_004565/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4566, + "data_source": "SPAR-Bench", + "question": "Please provide the distance in meters between the observer and the red point at the center of chair (red point). Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004566/000.jpg", + "spar_bench/sample_004566/001.jpg", + "spar_bench/sample_004566/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4567, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of computer tower (red point)? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004567/000.jpg", + "spar_bench/sample_004567/001.jpg", + "spar_bench/sample_004567/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4568, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of storage cabinet in the scene? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004568/000.jpg", + "spar_bench/sample_004568/001.jpg", + "spar_bench/sample_004568/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4569, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the red point marking the center of computer tower? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004569/000.jpg", + "spar_bench/sample_004569/001.jpg", + "spar_bench/sample_004569/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4570, + "data_source": "SPAR-Bench", + "question": "How far is the center of outlet (red point) from the observer in the photograph? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004570/000.jpg", + "spar_bench/sample_004570/001.jpg", + "spar_bench/sample_004570/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4571, + "data_source": "SPAR-Bench", + "question": "How far is the center of toilet paper (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004571/000.jpg", + "spar_bench/sample_004571/001.jpg", + "spar_bench/sample_004571/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4572, + "data_source": "SPAR-Bench", + "question": "What is the spatial distance in meters between the person who took the photo and the center of cabinet (red point)? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004572/000.jpg", + "spar_bench/sample_004572/001.jpg", + "spar_bench/sample_004572/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4573, + "data_source": "SPAR-Bench", + "question": "What is the calculated distance in meters from the observer to the center of light switch (red point)? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004573/000.jpg", + "spar_bench/sample_004573/001.jpg", + "spar_bench/sample_004573/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4574, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s standpoint, what is the distance to the center of bookshelf (red point)? Ensure the answer is in meters. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004574/000.jpg", + "spar_bench/sample_004574/001.jpg", + "spar_bench/sample_004574/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4575, + "data_source": "SPAR-Bench", + "question": "Calculate the distance in meters from the observer\u2019s location to the red point at the center of outlet (red point). Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004575/000.jpg", + "spar_bench/sample_004575/001.jpg", + "spar_bench/sample_004575/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4576, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of paper (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004576/000.jpg", + "spar_bench/sample_004576/001.jpg", + "spar_bench/sample_004576/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4577, + "data_source": "SPAR-Bench", + "question": "How far away, measured in meters, is the observer from the center of table (red point)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004577/000.jpg", + "spar_bench/sample_004577/001.jpg", + "spar_bench/sample_004577/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4578, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of bookshelf (red point)? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004578/000.jpg", + "spar_bench/sample_004578/001.jpg", + "spar_bench/sample_004578/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4579, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the red point at the center of toilet paper from the observer in this image? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004579/000.jpg", + "spar_bench/sample_004579/001.jpg", + "spar_bench/sample_004579/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4580, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of counter in the image? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004580/000.jpg", + "spar_bench/sample_004580/001.jpg", + "spar_bench/sample_004580/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4581, + "data_source": "SPAR-Bench", + "question": "From the person who took the photo, how far is the center of cup (red point) located? The answer must be in meters. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004581/000.jpg", + "spar_bench/sample_004581/001.jpg", + "spar_bench/sample_004581/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4582, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the red point at the center of scarf from the observer in this image? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Respond with exactly one numeric value.", + "image_path": [ + "spar_bench/sample_004582/000.jpg", + "spar_bench/sample_004582/001.jpg", + "spar_bench/sample_004582/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4583, + "data_source": "SPAR-Bench", + "question": "What is the approximate distance in meters from the observer to the center of table (red point)? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view. Ensure your answer contains only one number.", + "image_path": [ + "spar_bench/sample_004583/000.jpg", + "spar_bench/sample_004583/001.jpg", + "spar_bench/sample_004583/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4584, + "data_source": "SPAR-Bench", + "question": "How far away, measured in meters, is the observer from the center of keyboard (red point)? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004584/000.jpg", + "spar_bench/sample_004584/001.jpg", + "spar_bench/sample_004584/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4585, + "data_source": "SPAR-Bench", + "question": "Can you tell how far the center of whiteboard (red point) is from the person who took the photo? Please state the distance in meters. Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004585/000.jpg", + "spar_bench/sample_004585/001.jpg", + "spar_bench/sample_004585/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4586, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the center of laptop (red point) based on the given photo? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004586/000.jpg", + "spar_bench/sample_004586/001.jpg", + "spar_bench/sample_004586/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4587, + "data_source": "SPAR-Bench", + "question": "How far away, measured in meters, is the observer from the center of smoke detector (red point)? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004587/000.jpg", + "spar_bench/sample_004587/001.jpg", + "spar_bench/sample_004587/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4588, + "data_source": "SPAR-Bench", + "question": "What is the total distance in meters from the person who captured the image to the center of cardbox (red point)? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Provide a numeric response with just one value.", + "image_path": [ + "spar_bench/sample_004588/000.jpg", + "spar_bench/sample_004588/001.jpg", + "spar_bench/sample_004588/002.jpg" + ], + "data_type": "multi_view", + "answer": "4.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4589, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of exhaust fan (red point) in the photo? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004589/000.jpg", + "spar_bench/sample_004589/001.jpg", + "spar_bench/sample_004589/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4590, + "data_source": "SPAR-Bench", + "question": "What is the linear distance in meters between the observer\u2019s location and the center of bedside cabinet (red point)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004590/000.jpg", + "spar_bench/sample_004590/001.jpg", + "spar_bench/sample_004590/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4591, + "data_source": "SPAR-Bench", + "question": "From the perspective of the person who took the image, how far is copier (red point)? Provide the distance in meters. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Only one numeric value is required for your response.", + "image_path": [ + "spar_bench/sample_004591/000.jpg", + "spar_bench/sample_004591/001.jpg", + "spar_bench/sample_004591/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4592, + "data_source": "SPAR-Bench", + "question": "From the perspective of the person who took the image, how far is books (red point)? Provide the distance in meters. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004592/000.jpg", + "spar_bench/sample_004592/001.jpg", + "spar_bench/sample_004592/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4593, + "data_source": "SPAR-Bench", + "question": "How many meters away is monitor (red point) from the person who captured the image? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004593/000.jpg", + "spar_bench/sample_004593/001.jpg", + "spar_bench/sample_004593/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4594, + "data_source": "SPAR-Bench", + "question": "What is the spatial distance in meters between the person who took the photo and the center of jug (red point)? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004594/000.jpg", + "spar_bench/sample_004594/001.jpg", + "spar_bench/sample_004594/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4595, + "data_source": "SPAR-Bench", + "question": "What is the measured distance in meters between the observer and the red point marking the center of office chair in the scene? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004595/000.jpg", + "spar_bench/sample_004595/001.jpg", + "spar_bench/sample_004595/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.2", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4596, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-office chair distance in meters, considering the center of office chair (red point)? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004596/000.jpg", + "spar_bench/sample_004596/001.jpg", + "spar_bench/sample_004596/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4597, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of fire extinguisher (red point)? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004597/000.jpg", + "spar_bench/sample_004597/001.jpg", + "spar_bench/sample_004597/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4598, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of printer (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Input a single number to complete your answer.", + "image_path": [ + "spar_bench/sample_004598/000.jpg", + "spar_bench/sample_004598/001.jpg", + "spar_bench/sample_004598/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4599, + "data_source": "SPAR-Bench", + "question": "What is the Euclidean distance from the person who captured the image to the center of cabinet (red point)? Provide the answer in meters. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004599/000.jpg", + "spar_bench/sample_004599/001.jpg", + "spar_bench/sample_004599/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4600, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s position, how many meters is the red point marking the center of monitor? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Only one number should be included in your response.", + "image_path": [ + "spar_bench/sample_004600/000.jpg", + "spar_bench/sample_004600/001.jpg", + "spar_bench/sample_004600/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.7", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4601, + "data_source": "SPAR-Bench", + "question": "How far, in meters, is the observer from the red point located at the center of bench in the image? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_004601/000.jpg", + "spar_bench/sample_004601/001.jpg", + "spar_bench/sample_004601/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4602, + "data_source": "SPAR-Bench", + "question": "What is the straight-line distance in meters from the observer to towel (red point)? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004602/000.jpg", + "spar_bench/sample_004602/001.jpg", + "spar_bench/sample_004602/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4603, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of cable duct (red point)? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Please respond with a single number only.", + "image_path": [ + "spar_bench/sample_004603/000.jpg", + "spar_bench/sample_004603/001.jpg", + "spar_bench/sample_004603/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4604, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the person who took the photo and the center of knife (red point) in meters. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_004604/000.jpg", + "spar_bench/sample_004604/001.jpg", + "spar_bench/sample_004604/002.jpg" + ], + "data_type": "multi_view", + "answer": "5.1", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4605, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of pillow (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_004605/000.jpg", + "spar_bench/sample_004605/001.jpg", + "spar_bench/sample_004605/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.4", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4606, + "data_source": "SPAR-Bench", + "question": "What is the distance in meters separating the observer from the center of sink (red point)? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004606/000.jpg", + "spar_bench/sample_004606/001.jpg", + "spar_bench/sample_004606/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.8", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4607, + "data_source": "SPAR-Bench", + "question": "Measure the distance between the center of bookshelf (red point) and the observer in the image. Report it in meters. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004607/000.jpg", + "spar_bench/sample_004607/001.jpg", + "spar_bench/sample_004607/002.jpg" + ], + "data_type": "multi_view", + "answer": "2.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4608, + "data_source": "SPAR-Bench", + "question": "How far is the center of power strip (red point) located from the observer\u2019s position? Please provide the answer in meters. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004608/000.jpg", + "spar_bench/sample_004608/001.jpg", + "spar_bench/sample_004608/002.jpg" + ], + "data_type": "multi_view", + "answer": "3.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4609, + "data_source": "SPAR-Bench", + "question": "Measure the Euclidean distance in meters from the observer\u2019s position to the red point at the center of panel. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Enter one numeric value as your answer.", + "image_path": [ + "spar_bench/sample_004609/000.jpg", + "spar_bench/sample_004609/001.jpg", + "spar_bench/sample_004609/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4610, + "data_source": "SPAR-Bench", + "question": "How many meters separate the observer from the center of chair (red point)? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004610/000.jpg", + "spar_bench/sample_004610/001.jpg", + "spar_bench/sample_004610/002.jpg" + ], + "data_type": "multi_view", + "answer": "6.6", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4611, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s distance in meters to the center of shelf (red point) in this scene? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective. Answer using a single number and nothing else.", + "image_path": [ + "spar_bench/sample_004611/000.jpg", + "spar_bench/sample_004611/001.jpg", + "spar_bench/sample_004611/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.3", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4612, + "data_source": "SPAR-Bench", + "question": "How far apart in meters are the observer and the center of photocopy machine (red point) in the photo? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. The answer should be a single number, nothing more.", + "image_path": [ + "spar_bench/sample_004612/000.jpg", + "spar_bench/sample_004612/001.jpg", + "spar_bench/sample_004612/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.0", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4613, + "data_source": "SPAR-Bench", + "question": "What is the observer-to-coax outlet distance in meters, considering the center of coax outlet (red point)? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus. Answer by providing just one numeric value.", + "image_path": [ + "spar_bench/sample_004613/000.jpg", + "spar_bench/sample_004613/001.jpg", + "spar_bench/sample_004613/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.5", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4614, + "data_source": "SPAR-Bench", + "question": "What is the calculated distance in meters from the observer to the center of window (red point)? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective. Submit your answer as one number only.", + "image_path": [ + "spar_bench/sample_004614/000.jpg", + "spar_bench/sample_004614/001.jpg", + "spar_bench/sample_004614/002.jpg" + ], + "data_type": "multi_view", + "answer": "8.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4615, + "data_source": "SPAR-Bench", + "question": "What is the exact distance in meters from the observer to the center of shelf (red point)? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint. Your response should consist of just one numeric value.", + "image_path": [ + "spar_bench/sample_004615/000.jpg", + "spar_bench/sample_004615/001.jpg", + "spar_bench/sample_004615/002.jpg" + ], + "data_type": "multi_view", + "answer": "0.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4616, + "data_source": "SPAR-Bench", + "question": "How far in meters is the center of monitor (red point) from the observer who took the photo? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view. Provide your input as exactly one number.", + "image_path": [ + "spar_bench/sample_004616/000.jpg", + "spar_bench/sample_004616/001.jpg", + "spar_bench/sample_004616/002.jpg" + ], + "data_type": "multi_view", + "answer": "1.9", + "problem_type": "regression", + "original_question_type": "distance_prediction_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4617, + "data_source": "SPAR-Bench", + "question": "Based on the red bbox of mat in the first image, locate its bounding box in the second image. Pick the appropriate answer from the options given.\nA. [0, 0, 556, 720]\nB. [529, 1, 1000, 632]\nC. [0, 490, 1000, 999]\nD. [0, 29, 324, 720]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004617/000.jpg", + "spar_bench/sample_004617/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4618, + "data_source": "SPAR-Bench", + "question": "Where is the object boxes, shown with a red bbox in the first image, located in the second image? Provide its bounding box. Choose the correct response from the given choices.\nA. [0, 431, 337, 999]\nB. [724, 12, 1000, 696]\nC. [234, 378, 605, 846]\nD. [0, 709, 334, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004618/000.jpg", + "spar_bench/sample_004618/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4619, + "data_source": "SPAR-Bench", + "question": "Given window in the first image with its red bbox, identify its bounding box in the second image. Pick the correct option from the choices provided.\nA. [380, 225, 999, 998]\nB. [0, 189, 486, 997]\nC. [610, 1, 1000, 513]\nD. [0, 0, 233, 537]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004619/000.jpg", + "spar_bench/sample_004619/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4620, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of pillow in the second image, based on its location in the red bbox of the first image. Pick the appropriate answer from the options given.\nA. [337, 4, 574, 298]\nB. [98, 350, 898, 993]\nC. [158, 484, 335, 674]\nD. [9, 454, 226, 739]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004620/000.jpg", + "spar_bench/sample_004620/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4621, + "data_source": "SPAR-Bench", + "question": "Where is fireplace, identified by the red bbox in the first image, located in the second image? Provide its bounding box. Choose the correct answer from the choices available.\nA. [188, 176, 447, 440]\nB. [736, 3, 1000, 381]\nC. [192, 165, 298, 292]\nD. [450, 69, 749, 666]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004621/000.jpg", + "spar_bench/sample_004621/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4622, + "data_source": "SPAR-Bench", + "question": "Locate the position of bathroom vanity in the second image, as defined by its red bbox in the first image, and provide the bbox. Select the appropriate response from the given choices.\nA. [899, 603, 1000, 759]\nB. [736, 522, 1000, 998]\nC. [0, 1, 187, 917]\nD. [917, -1, 1000, 468]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004622/000.jpg", + "spar_bench/sample_004622/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4623, + "data_source": "SPAR-Bench", + "question": "Where does desk from the red bbox in the first image appear in the second image? Provide the bounding box. Choose the correct answer from the choices available.\nA. [0, 1, 614, 809]\nB. [724, 0, 1000, 1000]\nC. [296, 0, 498, 128]\nD. [728, 149, 1000, 1000]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004623/000.jpg", + "spar_bench/sample_004623/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4624, + "data_source": "SPAR-Bench", + "question": "Where is the object beer bottles, given as a red bbox in the first image, located in the second image? Provide the bbox. Pick the appropriate option from the choices provided.\nA. [139, 789, 427, 1000]\nB. [195, 948, 303, 1000]\nC. [138, 812, 212, 1000]\nD. [0, 458, 214, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004624/000.jpg", + "spar_bench/sample_004624/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4625, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of bag of coffee beans in the second image, using the red bbox from the first image as a guide? Choose the correct answer from the choices available.\nA. [789, 0, 876, 128]\nB. [499, 0, 587, 60]\nC. [0, 11, 652, 998]\nD. [607, 1, 809, 142]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004625/000.jpg", + "spar_bench/sample_004625/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4626, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of chair in the second image, based on its red bbox in the first image. Pick the appropriate option from the choices provided.\nA. [8, 2, 535, 506]\nB. [367, 218, 999, 996]\nC. [6, 2, 530, 386]\nD. [491, 217, 999, 995]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004626/000.jpg", + "spar_bench/sample_004626/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4627, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for nightstand in the second image, as guided by its red bbox in the first image? Pick the correct answer from the choices provided.\nA. [246, 18, 535, 423]\nB. [300, 488, 431, 709]\nC. [401, 324, 619, 823]\nD. [523, 0, 999, 188]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004627/000.jpg", + "spar_bench/sample_004627/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4628, + "data_source": "SPAR-Bench", + "question": "Where is bathroom stall door located in the second image, based on its red bbox in the first image? Provide the bounding box. Select the right response from the available choices.\nA. [361, 3, 566, 115]\nB. [362, 412, 565, 872]\nC. [197, 21, 807, 984]\nD. [1, 10, 311, 991]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004628/000.jpg", + "spar_bench/sample_004628/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4629, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of cooler in the second image, as guided by its red bbox in the first image. Select the appropriate response from the given choices.\nA. [383, 770, 571, 999]\nB. [602, 0, 1000, 649]\nC. [606, 696, 758, 999]\nD. [0, 0, 416, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004629/000.jpg", + "spar_bench/sample_004629/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4630, + "data_source": "SPAR-Bench", + "question": "Where does pillow from the red bbox in the first image appear in the second image? Provide the bounding box. Choose the appropriate answer from the options given.\nA. [0, 254, 1000, 949]\nB. [458, -1, 941, 180]\nC. [621, 133, 966, 468]\nD. [347, 0, 931, 180]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004630/000.jpg", + "spar_bench/sample_004630/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4631, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of sleeping bag in the second image, using the red bbox from the first image as a guide. Select the appropriate option from the given choices.\nA. [829, 440, 1000, 1000]\nB. [287, -1, 929, 661]\nC. [0, 0, 160, 549]\nD. [0, 276, 170, 862]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004631/000.jpg", + "spar_bench/sample_004631/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4632, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of armchair in the second image, using its red bbox from the first image as guidance. Choose the correct response from the given choices.\nA. [0, 108, 93, 691]\nB. [39, 87, 335, 441]\nC. [133, 315, 682, 968]\nD. [531, 137, 838, 533]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004632/000.jpg", + "spar_bench/sample_004632/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4633, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of box in the second image, using the red bbox from the first image as a reference point. Choose the right response from the choices provided.\nA. [819, 852, 1000, 999]\nB. [387, 562, 846, 998]\nC. [871, 470, 1000, 585]\nD. [879, 578, 999, 931]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004633/000.jpg", + "spar_bench/sample_004633/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4634, + "data_source": "SPAR-Bench", + "question": "From the red bbox of chair in the first image, identify its bounding box in the second image. Please select the correct option from the choices provided.\nA. [692, 259, 1000, 998]\nB. [890, 0, 1000, 124]\nC. [0, 0, 240, 310]\nD. [318, 274, 999, 996]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004634/000.jpg", + "spar_bench/sample_004634/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4635, + "data_source": "SPAR-Bench", + "question": "Identify the position of blanket in the second image, based on its red bbox location in the first image, and provide the bounding box. Select the correct response from the given choices.\nA. [111, 243, 318, 505]\nB. [1, 0, 700, 488]\nC. [37, 339, 230, 578]\nD. [458, 331, 823, 808]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004635/000.jpg", + "spar_bench/sample_004635/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4636, + "data_source": "SPAR-Bench", + "question": "Locate and provide the bounding box of table in the second image, using its red bbox in the first image. Pick the appropriate option from the choices provided.\nA. [698, 258, 816, 453]\nB. [41, 0, 246, 238]\nC. [702, 79, 1000, 990]\nD. [708, 77, 1000, 432]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004636/000.jpg", + "spar_bench/sample_004636/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4637, + "data_source": "SPAR-Bench", + "question": "Find and return the bounding box of storage bin in the second image, using the red bbox from the first image as reference. Select the correct response from the given choices.\nA. [616, 374, 988, 681]\nB. [927, 232, 1000, 942]\nC. [867, 235, 1000, 932]\nD. [176, 130, 999, 995]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004637/000.jpg", + "spar_bench/sample_004637/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4638, + "data_source": "SPAR-Bench", + "question": "Locate the position of chair in the second image, as defined by its red bbox in the first image, and provide the bbox. Select the correct response from the given choices.\nA. [45, 0, 486, 440]\nB. [0, 18, 316, 996]\nC. [0, 55, 619, 997]\nD. [45, 0, 317, 421]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004638/000.jpg", + "spar_bench/sample_004638/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4639, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of the object table in the second image, based on its red bbox in the first image. Pick the correct option from the choices provided.\nA. [55, 76, 704, 614]\nB. [1, 204, 307, 542]\nC. [0, 143, 12, 312]\nD. [601, 273, 974, 856]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004639/000.jpg", + "spar_bench/sample_004639/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4640, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of paper in the second image, as referenced by its red bbox in the first image. Select the right option from the choices provided.\nA. [303, 44, 409, 266]\nB. [405, 734, 632, 1000]\nC. [277, 320, 412, 626]\nD. [87, 0, 999, 825]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004640/000.jpg", + "spar_bench/sample_004640/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4641, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of desk in the second image, as guided by its red bbox in the first image. Select the appropriate option from the given choices.\nA. [732, 455, 982, 661]\nB. [3, -1, 929, 749]\nC. [1, -1, 697, 745]\nD. [736, 0, 1000, 659]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004641/000.jpg", + "spar_bench/sample_004641/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4642, + "data_source": "SPAR-Bench", + "question": "Where is chair located in the second image, based on its red bbox in the first image? Provide the bounding box. Choose the appropriate option from the choices provided.\nA. [643, 353, 873, 816]\nB. [131, 316, 448, 850]\nC. [799, 330, 997, 764]\nD. [487, 378, 718, 849]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004642/000.jpg", + "spar_bench/sample_004642/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4643, + "data_source": "SPAR-Bench", + "question": "Locate cabinet in the second image, based on its red bbox position in the first image, and provide the bounding box. Select the right response from the available choices.\nA. [4, 1, 425, 135]\nB. [315, 613, 435, 813]\nC. [129, 751, 314, 903]\nD. [6, 70, 458, 654]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004643/000.jpg", + "spar_bench/sample_004643/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4644, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of recycling bin in the first image, determine its corresponding bounding box in the second image. Choose the correct answer from the choices available.\nA. [2, 860, 336, 997]\nB. [92, 779, 429, 993]\nC. [151, 1, 999, 550]\nD. [478, 790, 939, 998]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004644/000.jpg", + "spar_bench/sample_004644/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4645, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of tv in the first image, determine its corresponding bounding box in the second image. Pick the right response from the available choices.\nA. [291, 437, 1000, 1000]\nB. [536, 0, 986, 295]\nC. [353, 341, 838, 989]\nD. [654, 444, 1000, 997]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004645/000.jpg", + "spar_bench/sample_004645/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4646, + "data_source": "SPAR-Bench", + "question": "Using the position of picture in the first image (red bbox), find its bounding box in the second image. Choose the correct option from the available choices.\nA. [202, 0, 449, 116]\nB. [597, 252, 1000, 996]\nC. [607, 270, 1000, 699]\nD. [104, 373, 545, 994]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004646/000.jpg", + "spar_bench/sample_004646/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4647, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of kitchen cabinet in the second image, as referenced by its red bbox in the first image. Pick the correct answer from the choices provided.\nA. [712, 276, 1000, 999]\nB. [794, -1, 1000, 285]\nC. [284, 705, 726, 998]\nD. [164, 1, 998, 471]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004647/000.jpg", + "spar_bench/sample_004647/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4648, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for table in the second image, based on its red bbox location in the first image? Pick the appropriate option from the choices available.\nA. [602, 2, 999, 503]\nB. [420, 5, 663, 303]\nC. [86, 3, 425, 280]\nD. [342, 423, 800, 990]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004648/000.jpg", + "spar_bench/sample_004648/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4649, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of the object wood in the second image, based on its red bbox in the first image. Choose the appropriate option from the choices provided.\nA. [11, 8, 464, 711]\nB. [132, 447, 988, 989]\nC. [130, 548, 989, 992]\nD. [501, 288, 991, 976]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004649/000.jpg", + "spar_bench/sample_004649/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4650, + "data_source": "SPAR-Bench", + "question": "Identify the position of chair in the second image, based on its red bbox location in the first image, and provide the bounding box. Pick the right response from the available choices.\nA. [610, 104, 881, 628]\nB. [641, 0, 1000, 98]\nC. [611, 417, 1000, 998]\nD. [134, 240, 545, 951]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004650/000.jpg", + "spar_bench/sample_004650/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4651, + "data_source": "SPAR-Bench", + "question": "Identify the position of bench in the second image, based on its red bbox location in the first image, and provide the bounding box. Choose the correct option from the available choices.\nA. [0, 122, 379, 452]\nB. [0, 0, 1000, 641]\nC. [247, 0, 806, 325]\nD. [0, 391, 256, 964]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004651/000.jpg", + "spar_bench/sample_004651/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4652, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for trash bin in the second image, as guided by its red bbox in the first image? Choose the appropriate answer from the options given.\nA. [3, 6, 753, 994]\nB. [6, 233, 733, 991]\nC. [5, 3, 459, 474]\nD. [6, 4, 458, 474]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004652/000.jpg", + "spar_bench/sample_004652/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4653, + "data_source": "SPAR-Bench", + "question": "Where does mirror from the red bbox in the first image appear in the second image? Provide the bounding box. Select the correct response from the given choices.\nA. [466, 649, 919, 1000]\nB. [936, 807, 1000, 999]\nC. [460, 399, 542, 591]\nD. [658, 0, 930, 691]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004653/000.jpg", + "spar_bench/sample_004653/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4654, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of chair in the first image, find and return its bounding box in the second image. Select the correct response from the given choices.\nA. [0, 302, 726, 988]\nB. [0, 529, 90, 988]\nC. [442, 573, 815, 1000]\nD. [54, 487, 449, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004654/000.jpg", + "spar_bench/sample_004654/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4655, + "data_source": "SPAR-Bench", + "question": "Where is bin, shown with a red bbox in the first image, located in the second image? Provide the bbox details. Select the appropriate option from the given choices.\nA. [0, 210, 97, 390]\nB. [496, 339, 625, 621]\nC. [528, 241, 612, 367]\nD. [313, 307, 390, 710]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004655/000.jpg", + "spar_bench/sample_004655/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4656, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of the object ottoman in the second image, based on its red bbox in the first image. Please select the correct option from the choices provided.\nA. [3, 267, 189, 985]\nB. [29, 142, 633, 859]\nC. [701, 4, 999, 995]\nD. [541, 19, 879, 488]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004656/000.jpg", + "spar_bench/sample_004656/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4657, + "data_source": "SPAR-Bench", + "question": "Where is rail, shown with a red bbox in the first image, located in the second image? Provide the bbox details. Pick the appropriate answer from the options given.\nA. [0, 0, 369, 697]\nB. [366, 25, 1000, 163]\nC. [586, 3, 852, 414]\nD. [882, 17, 1000, 984]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004657/000.jpg", + "spar_bench/sample_004657/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4658, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object chair in the second image, using its red bbox in the first image as a reference? Please select the correct option from the choices provided.\nA. [226, 475, 351, 694]\nB. [5, 618, 132, 892]\nC. [64, 477, 204, 645]\nD. [5, 506, 123, 802]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004658/000.jpg", + "spar_bench/sample_004658/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4659, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of clothing in the second image, as referenced by its red bbox in the first image? Choose the appropriate option from the choices provided.\nA. [367, 639, 994, 997]\nB. [645, 2, 999, 993]\nC. [735, 510, 997, 996]\nD. [9, 6, 651, 994]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004659/000.jpg", + "spar_bench/sample_004659/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4660, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object chair in the second image, using its red bbox in the first image as a reference? Choose the right response from the choices provided.\nA. [478, 154, 1000, 994]\nB. [304, 93, 999, 998]\nC. [880, 3, 1000, 661]\nD. [521, 320, 1000, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004660/000.jpg", + "spar_bench/sample_004660/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4661, + "data_source": "SPAR-Bench", + "question": "Where is the object chair, given as a red bbox in the first image, located in the second image? Provide the bbox. Select the right option from the choices provided.\nA. [348, 98, 530, 454]\nB. [0, 1, 97, 241]\nC. [0, 245, 347, 950]\nD. [692, 117, 1000, 1000]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004661/000.jpg", + "spar_bench/sample_004661/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4662, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of stair rail in the second image, as referenced by its red bbox in the first image. Pick the appropriate option from the choices provided.\nA. [0, 791, 556, 999]\nB. [0, 534, 381, 979]\nC. [0, 549, 556, 993]\nD. [623, 17, 881, 346]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004662/000.jpg", + "spar_bench/sample_004662/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4663, + "data_source": "SPAR-Bench", + "question": "Where is keyboard, shown with a red bbox in the first image, located in the second image? Provide the bbox details. Pick the right response from the available choices.\nA. [5, 674, 284, 811]\nB. [2, 4, 563, 502]\nC. [99, 225, 457, 673]\nD. [442, 274, 821, 773]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004663/000.jpg", + "spar_bench/sample_004663/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4664, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object chair in the second image, using its red bbox in the first image as a reference? Select the right response from the available choices.\nA. [417, 108, 811, 852]\nB. [237, 11, 615, 335]\nC. [630, 273, 1000, 997]\nD. [463, 65, 656, 614]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004664/000.jpg", + "spar_bench/sample_004664/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4665, + "data_source": "SPAR-Bench", + "question": "Where is shoes, identified by the red bbox in the first image, located in the second image? Provide its bounding box. Choose the correct answer from the choices available.\nA. [326, 612, 556, 999]\nB. [476, 116, 922, 415]\nC. [204, 846, 339, 999]\nD. [845, 126, 1000, 353]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004665/000.jpg", + "spar_bench/sample_004665/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4666, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object chair in the second image, as seen in the red bbox of the first image? Choose the right response from the choices provided.\nA. [349, 5, 951, 650]\nB. [722, 652, 825, 906]\nC. [861, 771, 1000, 999]\nD. [374, 755, 884, 829]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004666/000.jpg", + "spar_bench/sample_004666/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4667, + "data_source": "SPAR-Bench", + "question": "Based on the red bbox of refrigerator in the first image, locate its bounding box in the second image. Select the right option from the choices provided.\nA. [233, 618, 301, 887]\nB. [610, 1, 919, 449]\nC. [0, 230, 237, 999]\nD. [229, 1, 604, 455]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004667/000.jpg", + "spar_bench/sample_004667/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4668, + "data_source": "SPAR-Bench", + "question": "Given towel with its red bbox in the first image, identify its bounding box in the second image. Pick the correct answer from the choices provided.\nA. [671, 0, 884, 249]\nB. [492, 0, 656, 270]\nC. [844, 343, 951, 462]\nD. [672, 0, 966, 251]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004668/000.jpg", + "spar_bench/sample_004668/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4669, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for trash can in the second image, based on its red bbox location in the first image? Pick the appropriate answer from the options given.\nA. [0, 660, 117, 1000]\nB. [2, 562, 516, 1000]\nC. [284, 771, 520, 999]\nD. [131, 1, 764, 799]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004669/000.jpg", + "spar_bench/sample_004669/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4670, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of jar in the second image, based on its location in the red bbox of the first image. Select the correct answer from the given choices.\nA. [528, 314, 1000, 999]\nB. [126, 286, 513, 998]\nC. [175, 0, 800, 75]\nD. [845, 118, 988, 308]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004670/000.jpg", + "spar_bench/sample_004670/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4671, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of table in the second image, with reference to its red bbox in the first image. Pick the right response from the available choices.\nA. [243, 22, 354, 249]\nB. [109, 11, 208, 234]\nC. [287, 108, 998, 985]\nD. [5, 12, 116, 209]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004671/000.jpg", + "spar_bench/sample_004671/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4672, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of backpack in the second image, based on its red bbox in the first image. Select the appropriate option from the given choices.\nA. [207, 1, 1000, 716]\nB. [214, 10, 401, 317]\nC. [0, 664, 307, 1001]\nD. [435, 111, 752, 660]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004672/000.jpg", + "spar_bench/sample_004672/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4673, + "data_source": "SPAR-Bench", + "question": "From the red bbox of cup in the first image, identify its bounding box in the second image. Pick the correct option from the choices provided.\nA. [546, 0, 1000, 51]\nB. [863, 179, 1000, 501]\nC. [496, 61, 582, 223]\nD. [312, 91, 394, 204]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004673/000.jpg", + "spar_bench/sample_004673/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4674, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object trash can in the second image, as seen in the red bbox of the first image? Select the right option from the choices provided.\nA. [4, 552, 357, 996]\nB. [800, 136, 997, 596]\nC. [270, 223, 440, 532]\nD. [253, 4, 729, 499]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004674/000.jpg", + "spar_bench/sample_004674/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4675, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object wall hanging in the second image, using its red bbox in the first image as a reference? Select the right option from the choices provided.\nA. [271, 745, 371, 907]\nB. [20, 848, 377, 1000]\nC. [364, 678, 1000, 999]\nD. [536, 3, 1000, 856]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004675/000.jpg", + "spar_bench/sample_004675/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4676, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of bookshelf in the first image, find and report its bounding box in the second image. Choose the right answer from the options available.\nA. [2, 12, 114, 325]\nB. [2, 280, 287, 980]\nC. [514, 542, 670, 639]\nD. [4, 540, 622, 998]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004676/000.jpg", + "spar_bench/sample_004676/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4677, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of chair in the first image, find and return its bounding box in the second image. Pick the correct answer from the choices provided.\nA. [737, 3, 1000, 999]\nB. [629, -1, 1000, 999]\nC. [100, 159, 315, 499]\nD. [629, 0, 999, 581]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004677/000.jpg", + "spar_bench/sample_004677/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4678, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of books in the first image, find and report its bounding box in the second image. Pick the appropriate option from the choices provided.\nA. [0, 233, 332, 633]\nB. [0, 1, 289, 299]\nC. [564, 0, 743, 496]\nD. [316, 1, 606, 711]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004678/000.jpg", + "spar_bench/sample_004678/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4679, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of chair in the second image, using the red bbox from the first image as a guide? Pick the correct answer from the choices provided.\nA. [320, 0, 1000, 514]\nB. [36, 514, 957, 999]\nC. [0, 483, 280, 999]\nD. [790, 538, 1000, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004679/000.jpg", + "spar_bench/sample_004679/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4680, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of the object bed in the second image, as referenced by its red bbox in the first image. Select the right response from the available choices.\nA. [7, 413, 640, 999]\nB. [232, 596, 398, 744]\nC. [328, 303, 998, 996]\nD. [361, 588, 514, 938]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004680/000.jpg", + "spar_bench/sample_004680/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4681, + "data_source": "SPAR-Bench", + "question": "Where is wardrobe closet, shown with a red bbox in the first image, located in the second image? Provide the bbox details. Pick the correct option from the choices provided.\nA. [472, 137, 599, 327]\nB. [668, 331, 1000, 999]\nC. [786, 24, 1000, 375]\nD. [0, 0, 516, 620]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004681/000.jpg", + "spar_bench/sample_004681/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4682, + "data_source": "SPAR-Bench", + "question": "Where is chair located in the second image, based on its red bbox in the first image? Provide the bounding box. Please select the correct option from the choices provided.\nA. [577, 696, 856, 961]\nB. [638, 692, 1000, 1000]\nC. [500, 0, 617, 69]\nD. [0, 0, 453, 1000]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004682/000.jpg", + "spar_bench/sample_004682/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4683, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of toilet paper in the first image, find and report its bounding box in the second image. Pick the appropriate option from the choices available.\nA. [174, 461, 998, 998]\nB. [0, 856, 93, 1000]\nC. [535, 498, 999, 997]\nD. [623, 671, 866, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004683/000.jpg", + "spar_bench/sample_004683/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4684, + "data_source": "SPAR-Bench", + "question": "Where is shower curtain located in the second image, based on its red bbox in the first image? Provide the bounding box. Choose the right answer from the options available.\nA. [860, 271, 999, 804]\nB. [586, 903, 904, 1000]\nC. [476, 341, 762, 793]\nD. [231, 170, 496, 998]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004684/000.jpg", + "spar_bench/sample_004684/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4685, + "data_source": "SPAR-Bench", + "question": "From the red bbox of ottoman in the first image, determine its bounding box in the second image. Select the appropriate option from the given choices.\nA. [0, 235, 106, 748]\nB. [0, 30, 668, 566]\nC. [620, 25, 999, 961]\nD. [320, 412, 578, 788]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004685/000.jpg", + "spar_bench/sample_004685/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4686, + "data_source": "SPAR-Bench", + "question": "Where is the object mirror, given as a red bbox in the first image, located in the second image? Provide the bbox. Select the right response from the available choices.\nA. [610, 1, 971, 173]\nB. [3, 1, 414, 224]\nC. [842, 82, 999, 998]\nD. [43, 392, 462, 779]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004686/000.jpg", + "spar_bench/sample_004686/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4687, + "data_source": "SPAR-Bench", + "question": "Using the position of chair in the red bbox from the first image, find its bounding box in the second image. Pick the appropriate option from the choices provided.\nA. [577, 210, 712, 453]\nB. [374, 195, 498, 230]\nC. [28, 0, 532, 181]\nD. [348, 453, 540, 710]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004687/000.jpg", + "spar_bench/sample_004687/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4688, + "data_source": "SPAR-Bench", + "question": "Identify the position of oven in the second image, based on its red bbox location in the first image, and provide the bounding box. Pick the right response from the available choices.\nA. [0, 741, 379, 1000]\nB. [712, 697, 947, 819]\nC. [600, 659, 1000, 1000]\nD. [233, 1, 729, 449]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004688/000.jpg", + "spar_bench/sample_004688/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4689, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of shelf in the first image, identify and provide its bounding box in the second image. Choose the correct answer from the choices available.\nA. [593, 3, 999, 272]\nB. [245, 265, 994, 993]\nC. [5, 13, 402, 990]\nD. [267, 420, 627, 771]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004689/000.jpg", + "spar_bench/sample_004689/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4690, + "data_source": "SPAR-Bench", + "question": "Given dollhouse in the first image with its red bbox, identify its bounding box in the second image. Choose the appropriate option from the choices provided.\nA. [755, 868, 1000, 1000]\nB. [874, 442, 1000, 889]\nC. [327, 854, 999, 1000]\nD. [208, 1, 530, 870]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004690/000.jpg", + "spar_bench/sample_004690/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4691, + "data_source": "SPAR-Bench", + "question": "From the red bbox of bag in the first image, identify its bounding box in the second image. Pick the right response from the available choices.\nA. [215, 402, 391, 692]\nB. [0, 442, 82, 879]\nC. [667, 90, 939, 761]\nD. [857, 295, 1000, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004691/000.jpg", + "spar_bench/sample_004691/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4692, + "data_source": "SPAR-Bench", + "question": "Given lamp with its red bbox in the first image, identify its bounding box in the second image. Select the correct answer from the given choices.\nA. [480, 0, 1000, 380]\nB. [2, 292, 999, 1000]\nC. [93, 137, 496, 998]\nD. [0, 0, 502, 291]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004692/000.jpg", + "spar_bench/sample_004692/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4693, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of mirror in the second image, as referenced by its red bbox in the first image? Select the correct response from the given choices.\nA. [703, 590, 1000, 999]\nB. [0, 0, 241, 356]\nC. [309, 335, 767, 481]\nD. [0, 369, 317, 949]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004693/000.jpg", + "spar_bench/sample_004693/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4694, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of armchair in the second image, using the red bbox from the first image as a guide? Choose the correct response from the given choices.\nA. [279, 1, 609, 140]\nB. [262, 3, 553, 225]\nC. [0, 144, 436, 604]\nD. [851, 325, 1000, 884]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004694/000.jpg", + "spar_bench/sample_004694/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4695, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of chair in the second image, using the red bbox from the first image as a reference point. Please select the correct option from the choices provided.\nA. [269, 93, 436, 334]\nB. [761, 262, 1000, 848]\nC. [174, 281, 556, 997]\nD. [572, 418, 1000, 998]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004695/000.jpg", + "spar_bench/sample_004695/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4696, + "data_source": "SPAR-Bench", + "question": "Where does office chair, identified by the red bbox in the first image, appear in the second image? Provide the bounding box. Select the correct response from the given choices.\nA. [1, 143, 284, 593]\nB. [294, 402, 998, 997]\nC. [283, 0, 644, 239]\nD. [695, 0, 1000, 285]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004696/000.jpg", + "spar_bench/sample_004696/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4697, + "data_source": "SPAR-Bench", + "question": "Where is the object trash can, given as a red bbox in the first image, located in the second image? Provide the bbox. Choose the right answer from the options available.\nA. [617, 334, 733, 481]\nB. [0, 708, 107, 946]\nC. [549, 5, 795, 994]\nD. [0, 0, 202, 876]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004697/000.jpg", + "spar_bench/sample_004697/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4698, + "data_source": "SPAR-Bench", + "question": "Where is the object water heater, shown with a red bbox in the first image, located in the second image? Provide its bounding box. Select the right option from the choices provided.\nA. [71, 513, 126, 813]\nB. [436, 331, 998, 993]\nC. [32, 647, 157, 864]\nD. [246, 318, 590, 987]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004698/000.jpg", + "spar_bench/sample_004698/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4699, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of tissue box in the second image, using its red bbox from the first image as guidance. Choose the appropriate answer from the options given.\nA. [552, 4, 1000, 995]\nB. [0, 0, 779, 999]\nC. [740, 0, 1000, 285]\nD. [797, 63, 969, 283]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004699/000.jpg", + "spar_bench/sample_004699/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4700, + "data_source": "SPAR-Bench", + "question": "Using the position of office chair in the first image (red bbox), find its bounding box in the second image. Pick the right response from the available choices.\nA. [301, 361, 552, 695]\nB. [1, 465, 115, 855]\nC. [534, 331, 761, 617]\nD. [474, 548, 997, 994]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004700/000.jpg", + "spar_bench/sample_004700/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4701, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of the object sofa chair in the second image, based on its red bbox in the first image. Pick the appropriate option from the choices available.\nA. [0, 0, 196, 538]\nB. [0, 1, 539, 533]\nC. [0, 658, 373, 999]\nD. [838, 438, 1000, 911]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004701/000.jpg", + "spar_bench/sample_004701/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4702, + "data_source": "SPAR-Bench", + "question": "Where does chair, identified by the red bbox in the first image, appear in the second image? Provide the bounding box. Pick the appropriate answer from the options given.\nA. [511, 147, 879, 786]\nB. [447, 375, 578, 756]\nC. [488, 42, 628, 253]\nD. [883, 142, 1000, 736]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004702/000.jpg", + "spar_bench/sample_004702/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4703, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of chair in the second image, based on its location in the red bbox of the first image. Choose the right answer from the options available.\nA. [717, 27, 854, 359]\nB. [720, 0, 873, 194]\nC. [250, 1, 480, 337]\nD. [723, 154, 981, 430]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004703/000.jpg", + "spar_bench/sample_004703/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4704, + "data_source": "SPAR-Bench", + "question": "Where does chair from the red bbox in the first image appear in the second image? Provide the bounding box. Pick the correct option from the choices provided.\nA. [383, 157, 631, 546]\nB. [378, 203, 615, 777]\nC. [697, 303, 1000, 996]\nD. [45, 366, 606, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004704/000.jpg", + "spar_bench/sample_004704/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4705, + "data_source": "SPAR-Bench", + "question": "Where does microwave, shown with a red bbox in the first image, appear in the second image? Provide its bounding box. Select the correct answer from the given choices.\nA. [636, 303, 1000, 663]\nB. [623, 531, 741, 999]\nC. [399, 0, 950, 180]\nD. [528, 0, 948, 180]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004705/000.jpg", + "spar_bench/sample_004705/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4706, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of monitor in the second image, using its red bbox from the first image as reference. Choose the appropriate answer from the options given.\nA. [9, 396, 360, 862]\nB. [165, 7, 484, 343]\nC. [868, 465, 997, 724]\nD. [584, 452, 999, 998]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004706/000.jpg", + "spar_bench/sample_004706/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4707, + "data_source": "SPAR-Bench", + "question": "Using the position of mini fridge in the red bbox of the first image, locate its bounding box in the second image. Select the appropriate option from the given choices.\nA. [269, 79, 1000, 998]\nB. [161, 486, 354, 811]\nC. [0, 573, 106, 998]\nD. [445, 112, 850, 296]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004707/000.jpg", + "spar_bench/sample_004707/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4708, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of chair in the second image, using its red bbox from the first image as guidance. Choose the correct answer from the choices available.\nA. [117, 383, 543, 998]\nB. [853, 178, 1000, 852]\nC. [469, 1, 698, 446]\nD. [160, 53, 443, 684]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004708/000.jpg", + "spar_bench/sample_004708/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4709, + "data_source": "SPAR-Bench", + "question": "Where does window from the red bbox in the first image appear in the second image? Provide the bounding box. Choose the correct answer from the choices available.\nA. [415, 753, 1000, 1000]\nB. [142, 314, 344, 585]\nC. [599, 121, 756, 471]\nD. [0, 5, 185, 260]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004709/000.jpg", + "spar_bench/sample_004709/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4710, + "data_source": "SPAR-Bench", + "question": "Identify the position of kitchen cabinet in the second image, based on its red bbox location in the first image, and provide the bounding box. Pick the appropriate option from the choices provided.\nA. [561, 188, 755, 558]\nB. [0, 168, 673, 998]\nC. [653, 0, 766, 58]\nD. [723, 0, 1000, 753]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004710/000.jpg", + "spar_bench/sample_004710/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4711, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object table in the second image, as seen in the red bbox of the first image? Select the right option from the choices provided.\nA. [22, 0, 393, 748]\nB. [283, 428, 624, 956]\nC. [473, 278, 918, 741]\nD. [338, -1, 752, 285]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004711/000.jpg", + "spar_bench/sample_004711/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4712, + "data_source": "SPAR-Bench", + "question": "From the red bbox of telephone in the first image, find its location in the second image and provide the bounding box. Pick the appropriate answer from the options given.\nA. [468, 193, 804, 628]\nB. [751, 587, 952, 766]\nC. [380, 563, 639, 702]\nD. [0, 375, 465, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004712/000.jpg", + "spar_bench/sample_004712/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4713, + "data_source": "SPAR-Bench", + "question": "Where is dining table, identified by the red bbox in the first image, located in the second image? Provide its bounding box. Choose the right response from the choices provided.\nA. [715, 123, 999, 997]\nB. [522, 48, 777, 708]\nC. [398, 120, 788, 964]\nD. [478, 126, 999, 996]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004713/000.jpg", + "spar_bench/sample_004713/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4714, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of bottle in the second image, using the red bbox from the first image as a guide? Pick the correct answer from the choices provided.\nA. [6, 10, 226, 441]\nB. [283, 66, 491, 515]\nC. [61, 39, 97, 122]\nD. [24, 209, 223, 443]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004714/000.jpg", + "spar_bench/sample_004714/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4715, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of bathroom stall door in the first image, determine its corresponding bounding box in the second image. Select the correct answer from the given choices.\nA. [378, 10, 649, 990]\nB. [807, 0, 1000, 49]\nC. [3, 7, 231, 767]\nD. [5, 7, 718, 991]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004715/000.jpg", + "spar_bench/sample_004715/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4716, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of vending machine from the first image, determine its bounding box in the second image. Choose the right answer from the options available.\nA. [366, 116, 997, 994]\nB. [408, 3, 565, 309]\nC. [615, 2, 806, 169]\nD. [4, 505, 186, 997]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004716/000.jpg", + "spar_bench/sample_004716/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4717, + "data_source": "SPAR-Bench", + "question": "Locate and provide the bounding box of shelf in the second image, using its red bbox in the first image. Select the right option from the choices provided.\nA. [176, 393, 769, 999]\nB. [90, 286, 999, 750]\nC. [571, 38, 1000, 323]\nD. [957, 332, 1000, 577]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004717/000.jpg", + "spar_bench/sample_004717/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4718, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of monitor in the first image, determine its corresponding bounding box in the second image. Pick the appropriate option from the choices available.\nA. [879, 20, 1000, 642]\nB. [821, 780, 1000, 1000]\nC. [505, 232, 689, 339]\nD. [2, 5, 480, 991]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004718/000.jpg", + "spar_bench/sample_004718/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4719, + "data_source": "SPAR-Bench", + "question": "Where is dispenser located in the second image, based on its red bbox in the first image? Provide the bounding box. Choose the right response from the choices provided.\nA. [208, 6, 367, 295]\nB. [7, 345, 176, 993]\nC. [373, 2, 543, 290]\nD. [333, 79, 993, 649]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004719/000.jpg", + "spar_bench/sample_004719/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4720, + "data_source": "SPAR-Bench", + "question": "Where does bathtub, shown with a red bbox in the first image, appear in the second image? Provide its bounding box. Select the correct response from the given choices.\nA. [438, 142, 567, 710]\nB. [507, 107, 974, 378]\nC. [311, 682, 488, 995]\nD. [808, 130, 997, 995]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004720/000.jpg", + "spar_bench/sample_004720/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4721, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of towel in the first image, find and return its bounding box in the second image. Select the correct answer from the given choices.\nA. [206, 10, 301, 186]\nB. [496, 0, 814, 368]\nC. [0, 119, 508, 976]\nD. [0, 746, 150, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004721/000.jpg", + "spar_bench/sample_004721/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4722, + "data_source": "SPAR-Bench", + "question": "Where is the object chair, given as a red bbox in the first image, located in the second image? Provide the bbox. Pick the appropriate option from the choices provided.\nA. [184, 197, 317, 335]\nB. [0, 209, 150, 357]\nC. [0, 209, 162, 451]\nD. [183, 196, 317, 429]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004722/000.jpg", + "spar_bench/sample_004722/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4723, + "data_source": "SPAR-Bench", + "question": "Locate the position of lamp in the second image, as defined by its red bbox in the first image, and provide the bbox. Pick the appropriate answer from the options given.\nA. [277, 377, 626, 556]\nB. [928, 619, 1000, 999]\nC. [0, 117, 87, 679]\nD. [76, 16, 246, 446]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004723/000.jpg", + "spar_bench/sample_004723/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4724, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of jar in the second image, as guided by its red bbox in the first image. Please select the correct option from the choices provided.\nA. [379, 559, 556, 860]\nB. [691, 81, 1000, 651]\nC. [615, 0, 991, 291]\nD. [545, -1, 1000, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004724/000.jpg", + "spar_bench/sample_004724/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4725, + "data_source": "SPAR-Bench", + "question": "Given blinds in the first image with its red bbox, identify its bounding box in the second image. Choose the correct response from the given choices.\nA. [133, 326, 261, 432]\nB. [5, 4, 538, 287]\nC. [6, 311, 997, 997]\nD. [4, 4, 539, 290]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004725/000.jpg", + "spar_bench/sample_004725/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4726, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of bathroom vanity in the second image, with reference to its red bbox in the first image. Choose the correct response from the given choices.\nA. [661, 0, 864, 106]\nB. [842, 82, 1000, 393]\nC. [423, 675, 790, 999]\nD. [612, 14, 1000, 998]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004726/000.jpg", + "spar_bench/sample_004726/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4727, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of laundry basket in the second image, using the red bbox from the first image as a guide? Select the right option from the choices provided.\nA. [4, 5, 556, 994]\nB. [788, 8, 947, 122]\nC. [769, 29, 864, 286]\nD. [634, 50, 996, 988]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004727/000.jpg", + "spar_bench/sample_004727/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4728, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for armchair in the second image, based on its red bbox location in the first image? Choose the appropriate option from the choices provided.\nA. [243, 453, 424, 662]\nB. [119, 401, 367, 770]\nC. [5, 312, 95, 941]\nD. [469, 4, 721, 249]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004728/000.jpg", + "spar_bench/sample_004728/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4729, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of counter in the second image using its red bbox from the first image as a reference. Choose the right answer from the options available.\nA. [725, 4, 998, 995]\nB. [2, 2, 142, 246]\nC. [645, 1, 711, 132]\nD. [8, 171, 843, 450]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004729/000.jpg", + "spar_bench/sample_004729/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4730, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of mailboxes from the first image, determine its bounding box in the second image. Pick the appropriate option from the choices provided.\nA. [0, 237, 212, 440]\nB. [891, -1, 1000, 999]\nC. [0, 290, 592, 999]\nD. [296, 1, 578, 307]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004730/000.jpg", + "spar_bench/sample_004730/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4731, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for window in the second image, based on its red bbox location in the first image? Choose the correct response from the given choices.\nA. [287, 685, 786, 1000]\nB. [706, 825, 954, 999]\nC. [420, 370, 534, 687]\nD. [616, 0, 1000, 1000]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004731/000.jpg", + "spar_bench/sample_004731/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4732, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of radiator in the second image, using the red bbox from the first image as a guide. Select the appropriate option from the given choices.\nA. [378, 2, 997, 269]\nB. [800, 275, 998, 869]\nC. [466, 396, 993, 550]\nD. [89, 135, 332, 512]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004732/000.jpg", + "spar_bench/sample_004732/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4733, + "data_source": "SPAR-Bench", + "question": "Where does table from the red bbox in the first image appear in the second image? Provide the bounding box. Pick the correct option from the choices provided.\nA. [584, 224, 702, 516]\nB. [491, 231, 646, 560]\nC. [673, 195, 814, 494]\nD. [1, 658, 48, 996]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004733/000.jpg", + "spar_bench/sample_004733/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4734, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of the object chair in the second image, based on its red bbox in the first image. Pick the correct option from the choices provided.\nA. [23, 114, 632, 438]\nB. [5, 541, 181, 997]\nC. [4, 541, 97, 997]\nD. [459, 241, 567, 480]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004734/000.jpg", + "spar_bench/sample_004734/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4735, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of cabinet in the second image, as defined by its red bbox in the first image. Select the right option from the choices provided.\nA. [78, 321, 997, 993]\nB. [75, 27, 411, 656]\nC. [73, 558, 415, 876]\nD. [471, 6, 998, 518]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004735/000.jpg", + "spar_bench/sample_004735/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4736, + "data_source": "SPAR-Bench", + "question": "Find and provide the bounding box of monitor in the second image, as referenced by its red bbox in the first image. Choose the appropriate option from the choices provided.\nA. [0, 0, 434, 754]\nB. [0, 671, 421, 990]\nC. [500, 743, 997, 1000]\nD. [531, 555, 696, 794]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004736/000.jpg", + "spar_bench/sample_004736/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4737, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of bench in the second image, as guided by its red bbox in the first image. Pick the appropriate answer from the options given.\nA. [153, 346, 403, 720]\nB. [133, 0, 334, 341]\nC. [0, 308, 404, 718]\nD. [155, 464, 293, 701]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004737/000.jpg", + "spar_bench/sample_004737/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4738, + "data_source": "SPAR-Bench", + "question": "From the red bbox of backpack in the first image, find its location in the second image and provide the bounding box. Choose the correct answer from the choices available.\nA. [3, 477, 248, 985]\nB. [597, 156, 945, 629]\nC. [91, 190, 1000, 997]\nD. [657, 140, 837, 236]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004738/000.jpg", + "spar_bench/sample_004738/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4739, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of chair from the first image, determine its bounding box in the second image. Pick the correct option from the choices provided.\nA. [779, 50, 999, 905]\nB. [157, 13, 763, 997]\nC. [4, 606, 180, 995]\nD. [779, 52, 999, 994]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004739/000.jpg", + "spar_bench/sample_004739/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4740, + "data_source": "SPAR-Bench", + "question": "Find and provide the bounding box of shoes in the second image, as referenced by its red bbox in the first image. Select the correct response from the given choices.\nA. [62, 465, 264, 663]\nB. [264, 604, 315, 669]\nC. [186, 676, 266, 753]\nD. [324, 106, 408, 448]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004740/000.jpg", + "spar_bench/sample_004740/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4741, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of the object towel in the second image, based on its red bbox in the first image. Pick the appropriate option from the choices provided.\nA. [814, 0, 1000, 393]\nB. [876, 0, 1000, 396]\nC. [670, -1, 1000, 397]\nD. [802, 564, 1000, 829]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004741/000.jpg", + "spar_bench/sample_004741/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4742, + "data_source": "SPAR-Bench", + "question": "Where is picture, identified by the red bbox in the first image, located in the second image? Provide its bounding box. Choose the appropriate option from the choices provided.\nA. [589, 0, 651, 57]\nB. [704, 17, 770, 94]\nC. [358, 35, 450, 131]\nD. [298, 578, 611, 946]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004742/000.jpg", + "spar_bench/sample_004742/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4743, + "data_source": "SPAR-Bench", + "question": "Given table in the first image with its red bbox, identify its bounding box in the second image. Pick the appropriate option from the choices provided.\nA. [335, 123, 525, 234]\nB. [390, 205, 700, 847]\nC. [138, 64, 394, 319]\nD. [0, 34, 511, 992]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004743/000.jpg", + "spar_bench/sample_004743/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4744, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of kitchen counter from the first image, determine its bounding box in the second image. Pick the appropriate option from the choices available.\nA. [4, 595, 255, 995]\nB. [9, 901, 996, 998]\nC. [90, 73, 671, 756]\nD. [617, 5, 1000, 989]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004744/000.jpg", + "spar_bench/sample_004744/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4745, + "data_source": "SPAR-Bench", + "question": "Find and provide the bounding box of shelf in the second image, as referenced by its red bbox in the first image. Pick the correct answer from the choices provided.\nA. [6, 341, 353, 990]\nB. [4, 507, 309, 997]\nC. [606, 5, 999, 865]\nD. [5, 366, 168, 846]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004745/000.jpg", + "spar_bench/sample_004745/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4746, + "data_source": "SPAR-Bench", + "question": "Based on the red bbox of towel in the first image, locate and return its bounding box in the second image. Select the correct response from the given choices.\nA. [399, 641, 651, 951]\nB. [880, 206, 997, 340]\nC. [693, 0, 848, 98]\nD. [488, 0, 985, 126]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004746/000.jpg", + "spar_bench/sample_004746/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4747, + "data_source": "SPAR-Bench", + "question": "Based on the red bbox of soap dispenser in the first image, locate and return its bounding box in the second image. Choose the appropriate option from the choices provided.\nA. [0, 0, 333, 325]\nB. [0, 0, 330, 324]\nC. [11, 475, 570, 999]\nD. [299, 0, 1000, 231]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004747/000.jpg", + "spar_bench/sample_004747/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4748, + "data_source": "SPAR-Bench", + "question": "Using the position of case of water bottles in the first image (red bbox), find its bounding box in the second image. Pick the correct answer from the choices provided.\nA. [80, 0, 475, 1000]\nB. [447, 770, 696, 999]\nC. [731, 669, 1000, 999]\nD. [482, 150, 999, 788]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004748/000.jpg", + "spar_bench/sample_004748/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4749, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of the object armchair in the second image, as referenced by its red bbox in the first image. Select the right response from the available choices.\nA. [3, 267, 189, 985]\nB. [541, 19, 879, 488]\nC. [701, 4, 999, 995]\nD. [29, 142, 633, 859]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004749/000.jpg", + "spar_bench/sample_004749/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4750, + "data_source": "SPAR-Bench", + "question": "Where is kitchen cabinets, identified by the red bbox in the first image, located in the second image? Provide its bounding box. Choose the appropriate answer from the options given.\nA. [793, 239, 1000, 997]\nB. [0, 223, 1000, 995]\nC. [0, 284, 241, 899]\nD. [3, 0, 817, 142]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004750/000.jpg", + "spar_bench/sample_004750/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4751, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of shelf in the second image using its red bbox from the first image as a reference. Select the correct answer from the given choices.\nA. [888, 74, 1000, 776]\nB. [645, 813, 989, 1000]\nC. [293, 24, 890, 771]\nD. [215, 839, 999, 1000]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004751/000.jpg", + "spar_bench/sample_004751/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4752, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of bathroom vanity in the first image, determine its corresponding bounding box in the second image. Pick the appropriate option from the choices available.\nA. [515, 666, 598, 910]\nB. [743, 350, 1000, 523]\nC. [560, 226, 1000, 997]\nD. [62, 0, 134, 137]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004752/000.jpg", + "spar_bench/sample_004752/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4753, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for desk in the second image, based on its red bbox location in the first image? Pick the appropriate answer from the options given.\nA. [5, 524, 358, 999]\nB. [848, 672, 999, 993]\nC. [135, 380, 370, 563]\nD. [553, 482, 995, 991]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004753/000.jpg", + "spar_bench/sample_004753/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4754, + "data_source": "SPAR-Bench", + "question": "Locate and provide the bounding box of office chair in the second image, using its red bbox in the first image. Select the correct response from the given choices.\nA. [519, 1, 978, 751]\nB. [54, 0, 415, 190]\nC. [60, 0, 250, 191]\nD. [587, 14, 773, 419]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004754/000.jpg", + "spar_bench/sample_004754/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4755, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of whiteboard in the first image, find and return its bounding box in the second image. Select the appropriate option from the given choices.\nA. [0, 674, 401, 966]\nB. [238, 5, 823, 677]\nC. [793, 745, 1000, 999]\nD. [876, 533, 1000, 843]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004755/000.jpg", + "spar_bench/sample_004755/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4756, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of sink from the first image, determine its bounding box in the second image. Select the correct response from the given choices.\nA. [232, 1, 539, 178]\nB. [433, 495, 709, 671]\nC. [413, 419, 807, 673]\nD. [29, 511, 648, 996]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004756/000.jpg", + "spar_bench/sample_004756/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4757, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object pillow in the second image, using its red bbox in the first image as a reference? Choose the correct response from the given choices.\nA. [619, 0, 829, 26]\nB. [554, 0, 1000, 516]\nC. [0, 47, 256, 284]\nD. [185, 5, 447, 191]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004757/000.jpg", + "spar_bench/sample_004757/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4758, + "data_source": "SPAR-Bench", + "question": "Where does bathroom stall door, identified by the red bbox in the first image, appear in the second image? Provide the bounding box. Select the appropriate response from the given choices.\nA. [619, 1, 817, 161]\nB. [4, 8, 526, 990]\nC. [558, 361, 774, 862]\nD. [170, 10, 472, 990]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004758/000.jpg", + "spar_bench/sample_004758/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4759, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of office chair in the second image, using the red bbox from the first image as a reference point. Pick the appropriate answer from the options given.\nA. [641, 137, 1000, 999]\nB. [506, 1, 996, 549]\nC. [331, 0, 609, 297]\nD. [451, -1, 1000, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004759/000.jpg", + "spar_bench/sample_004759/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4760, + "data_source": "SPAR-Bench", + "question": "From the red bbox of office chair in the first image, identify its bounding box in the second image. Select the correct answer from the given choices.\nA. [0, 166, 267, 935]\nB. [777, 1, 1000, 206]\nC. [300, 15, 496, 167]\nD. [603, 0, 844, 180]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004760/000.jpg", + "spar_bench/sample_004760/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4761, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of sink in the second image, based on its location in the red bbox of the first image. Choose the appropriate option from the choices provided.\nA. [612, 4, 998, 992]\nB. [249, 515, 408, 790]\nC. [610, 5, 996, 771]\nD. [328, 3, 720, 144]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004761/000.jpg", + "spar_bench/sample_004761/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4762, + "data_source": "SPAR-Bench", + "question": "Identify the position of telephone in the second image, based on its red bbox location in the first image, and provide the bounding box. Choose the appropriate answer from the options given.\nA. [526, 0, 881, 83]\nB. [864, 0, 1000, 160]\nC. [0, 0, 342, 1000]\nD. [251, 67, 413, 295]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004762/000.jpg", + "spar_bench/sample_004762/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4763, + "data_source": "SPAR-Bench", + "question": "Locate the position of cabinet in the second image, as defined by its red bbox in the first image, and provide the bbox. Pick the appropriate answer from the options given.\nA. [0, 724, 401, 1000]\nB. [290, 0, 769, 439]\nC. [862, 508, 1000, 999]\nD. [83, 582, 344, 762]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004763/000.jpg", + "spar_bench/sample_004763/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4764, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of box in the second image, as guided by its red bbox in the first image. Please select the correct option from the choices provided.\nA. [474, 11, 526, 691]\nB. [764, 18, 998, 981]\nC. [853, 822, 984, 998]\nD. [932, 769, 999, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004764/000.jpg", + "spar_bench/sample_004764/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4765, + "data_source": "SPAR-Bench", + "question": "From the red bbox of refrigerator in the first image, determine its bounding box in the second image. Pick the correct answer from the choices provided.\nA. [334, 608, 997, 990]\nB. [422, 625, 707, 861]\nC. [352, 173, 821, 565]\nD. [0, 0, 41, 998]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004765/000.jpg", + "spar_bench/sample_004765/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4766, + "data_source": "SPAR-Bench", + "question": "Where does chair, identified by the red bbox in the first image, appear in the second image? Provide the bounding box. Pick the correct answer from the choices provided.\nA. [0, 2, 649, 994]\nB. [261, 42, 880, 731]\nC. [75, 1, 534, 728]\nD. [76, 0, 336, 540]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004766/000.jpg", + "spar_bench/sample_004766/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4767, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of cabinet in the first image, find and return its bounding box in the second image. Select the correct answer from the given choices.\nA. [131, 316, 448, 850]\nB. [643, 353, 873, 816]\nC. [799, 330, 997, 764]\nD. [487, 378, 718, 849]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004767/000.jpg", + "spar_bench/sample_004767/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4768, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of armchair in the second image, as referenced by its red bbox in the first image? Choose the right response from the choices provided.\nA. [0, 456, 197, 999]\nB. [0, 270, 252, 678]\nC. [442, 249, 805, 876]\nD. [447, 452, 1000, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004768/000.jpg", + "spar_bench/sample_004768/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4769, + "data_source": "SPAR-Bench", + "question": "Locate the position of chair in the second image, as defined by its red bbox in the first image, and provide the bbox. Choose the correct option from the available choices.\nA. [190, 133, 593, 805]\nB. [0, 488, 210, 999]\nC. [0, 201, 272, 994]\nD. [763, 197, 1000, 923]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004769/000.jpg", + "spar_bench/sample_004769/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4770, + "data_source": "SPAR-Bench", + "question": "Based on the red bbox of armchair in the first image, locate its bounding box in the second image. Choose the right answer from the options available.\nA. [150, 60, 503, 441]\nB. [568, 510, 921, 993]\nC. [647, 94, 996, 540]\nD. [461, 148, 654, 432]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004770/000.jpg", + "spar_bench/sample_004770/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4771, + "data_source": "SPAR-Bench", + "question": "Locate and provide the bounding box of bathroom stall in the second image, using its red bbox in the first image. Pick the appropriate answer from the options given.\nA. [2, 6, 215, 781]\nB. [616, 275, 744, 699]\nC. [318, 8, 539, 856]\nD. [12, 12, 935, 876]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004771/000.jpg", + "spar_bench/sample_004771/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4772, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object chair in the second image, using its red bbox in the first image as a reference? Select the appropriate response from the given choices.\nA. [450, 385, 782, 918]\nB. [223, 330, 357, 473]\nC. [8, 281, 278, 746]\nD. [9, 223, 300, 726]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004772/000.jpg", + "spar_bench/sample_004772/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4773, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for towel in the second image, as guided by its red bbox in the first image? Pick the correct option from the choices provided.\nA. [806, 0, 1000, 330]\nB. [595, 1, 1000, 737]\nC. [604, 0, 1000, 644]\nD. [605, -1, 1000, 789]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004773/000.jpg", + "spar_bench/sample_004773/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4774, + "data_source": "SPAR-Bench", + "question": "From the red bbox of books in the first image, find its location in the second image and provide the bounding box. Pick the appropriate option from the choices available.\nA. [8, 609, 86, 695]\nB. [761, 2, 999, 201]\nC. [498, 137, 640, 385]\nD. [4, 526, 635, 995]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004774/000.jpg", + "spar_bench/sample_004774/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4775, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of plant in the first image, determine its position in the second image and provide the bounding box. Choose the correct answer from the choices available.\nA. [6, 605, 844, 998]\nB. [679, 2, 999, 648]\nC. [8, 3, 502, 879]\nD. [508, 348, 753, 712]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004775/000.jpg", + "spar_bench/sample_004775/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4776, + "data_source": "SPAR-Bench", + "question": "Where is armchair located in the second image, based on its red bbox in the first image? Provide the bounding box. Select the right response from the available choices.\nA. [0, 307, 114, 885]\nB. [0, 169, 298, 546]\nC. [255, 410, 875, 998]\nD. [514, 212, 843, 540]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004776/000.jpg", + "spar_bench/sample_004776/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4777, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of cabinet in the second image, as defined by its red bbox in the first image. Choose the correct answer from the choices available.\nA. [522, 0, 884, 451]\nB. [799, 2, 1000, 759]\nC. [38, 623, 597, 999]\nD. [0, 0, 204, 373]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004777/000.jpg", + "spar_bench/sample_004777/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4778, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object mirror in the second image, as seen in the red bbox of the first image? Pick the appropriate option from the choices available.\nA. [189, 162, 283, 260]\nB. [171, 189, 784, 682]\nC. [276, 1, 626, 79]\nD. [694, 373, 830, 549]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004778/000.jpg", + "spar_bench/sample_004778/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4779, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of window in the second image, using the red bbox from the first image as a guide. Pick the correct option from the choices provided.\nA. [554, 428, 999, 997]\nB. [362, 1, 998, 578]\nC. [622, 467, 763, 551]\nD. [663, 856, 1000, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004779/000.jpg", + "spar_bench/sample_004779/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4780, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of cabinets in the first image, identify and provide its bounding box in the second image. Choose the right response from the choices provided.\nA. [257, 346, 409, 727]\nB. [0, 290, 282, 994]\nC. [0, 296, 284, 860]\nD. [761, 371, 1000, 997]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004780/000.jpg", + "spar_bench/sample_004780/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4781, + "data_source": "SPAR-Bench", + "question": "Identify the position of chair in the second image, based on its red bbox location in the first image, and provide the bounding box. Pick the correct answer from the choices provided.\nA. [0, 102, 318, 999]\nB. [0, 0, 327, 422]\nC. [32, 238, 504, 1000]\nD. [239, 57, 485, 426]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004781/000.jpg", + "spar_bench/sample_004781/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4782, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of couch in the first image, determine its corresponding bounding box in the second image. Select the correct response from the given choices.\nA. [0, 576, 758, 1000]\nB. [0, 526, 208, 624]\nC. [353, 0, 728, 304]\nD. [231, 829, 481, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004782/000.jpg", + "spar_bench/sample_004782/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4783, + "data_source": "SPAR-Bench", + "question": "Based on the red bbox of toilet in the first image, locate its bounding box in the second image. Pick the right response from the available choices.\nA. [0, 0, 1000, 741]\nB. [0, 250, 123, 985]\nC. [20, 0, 309, 489]\nD. [770, 889, 1000, 1000]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004783/000.jpg", + "spar_bench/sample_004783/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4784, + "data_source": "SPAR-Bench", + "question": "Find and return the bounding box of radiator in the second image, using the red bbox from the first image as reference. Select the appropriate response from the given choices.\nA. [64, 6, 894, 401]\nB. [300, 547, 671, 855]\nC. [666, 501, 999, 996]\nD. [635, 572, 784, 994]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004784/000.jpg", + "spar_bench/sample_004784/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4785, + "data_source": "SPAR-Bench", + "question": "Using the position of chair in the red bbox of the first image, locate its bounding box in the second image. Select the right response from the available choices.\nA. [775, 332, 1000, 634]\nB. [743, 0, 1000, 617]\nC. [0, 379, 553, 999]\nD. [344, 0, 720, 998]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004785/000.jpg", + "spar_bench/sample_004785/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4786, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for vending machine in the second image, based on its red bbox location in the first image? Pick the correct answer from the choices provided.\nA. [791, 2, 999, 317]\nB. [671, 2, 999, 895]\nC. [501, 3, 677, 448]\nD. [305, 3, 489, 458]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004786/000.jpg", + "spar_bench/sample_004786/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4787, + "data_source": "SPAR-Bench", + "question": "Find and provide the bounding box of boxes in the second image, as referenced by its red bbox in the first image. Select the correct response from the given choices.\nA. [309, 495, 464, 823]\nB. [460, 359, 849, 999]\nC. [776, 886, 1000, 1000]\nD. [351, 560, 479, 919]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004787/000.jpg", + "spar_bench/sample_004787/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4788, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of sink in the second image, as guided by its red bbox in the first image. Pick the correct answer from the choices provided.\nA. [930, 181, 996, 262]\nB. [0, 674, 253, 1000]\nC. [0, 1, 336, 947]\nD. [904, 280, 1000, 574]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004788/000.jpg", + "spar_bench/sample_004788/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4789, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of chair in the second image, as referenced by its red bbox in the first image? Select the right response from the available choices.\nA. [646, 389, 999, 995]\nB. [7, 137, 326, 713]\nC. [645, 244, 988, 857]\nD. [712, 408, 993, 851]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004789/000.jpg", + "spar_bench/sample_004789/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4790, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object tissue box in the second image, as seen in the red bbox of the first image? Pick the appropriate answer from the options given.\nA. [368, 128, 752, 228]\nB. [13, 447, 892, 998]\nC. [295, 545, 669, 789]\nD. [15, 393, 268, 713]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004790/000.jpg", + "spar_bench/sample_004790/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4791, + "data_source": "SPAR-Bench", + "question": "Using the position of table in the first image (red bbox), find its bounding box in the second image. Select the appropriate option from the given choices.\nA. [268, 754, 568, 1000]\nB. [0, 334, 163, 999]\nC. [567, 217, 815, 586]\nD. [304, 396, 560, 803]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004791/000.jpg", + "spar_bench/sample_004791/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4792, + "data_source": "SPAR-Bench", + "question": "From the red bbox of chair in the first image, identify its bounding box in the second image. Choose the right answer from the options available.\nA. [0, 102, 318, 999]\nB. [0, 0, 327, 422]\nC. [239, 57, 485, 426]\nD. [178, 81, 502, 667]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004792/000.jpg", + "spar_bench/sample_004792/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4793, + "data_source": "SPAR-Bench", + "question": "From the red bbox of doors in the first image, identify its bounding box in the second image. Pick the correct answer from the choices provided.\nA. [0, 0, 315, 391]\nB. [0, 20, 207, 776]\nC. [0, 18, 212, 418]\nD. [136, 131, 826, 989]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004793/000.jpg", + "spar_bench/sample_004793/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4794, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of toilet paper in the second image, using the red bbox from the first image as a reference point. Select the right option from the choices provided.\nA. [574, 251, 757, 572]\nB. [807, 138, 962, 329]\nC. [85, 0, 558, 964]\nD. [830, 0, 992, 81]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004794/000.jpg", + "spar_bench/sample_004794/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4795, + "data_source": "SPAR-Bench", + "question": "From the red bbox of table in the first image, determine its bounding box in the second image. Select the right option from the choices provided.\nA. [460, 0, 580, 247]\nB. [602, 85, 859, 238]\nC. [776, 274, 1000, 992]\nD. [0, 364, 100, 994]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004795/000.jpg", + "spar_bench/sample_004795/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4796, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of trash can in the second image, as defined by its red bbox in the first image. Select the right response from the available choices.\nA. [543, 388, 665, 615]\nB. [0, 408, 171, 1000]\nC. [662, 421, 730, 666]\nD. [681, 285, 750, 445]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004796/000.jpg", + "spar_bench/sample_004796/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4797, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of the object dining table in the second image, based on its red bbox in the first image. Choose the appropriate answer from the options given.\nA. [5, 204, 427, 994]\nB. [697, 36, 1000, 852]\nC. [192, 1, 586, 515]\nD. [194, 2, 999, 931]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004797/000.jpg", + "spar_bench/sample_004797/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4798, + "data_source": "SPAR-Bench", + "question": "Given pillow in the first image with its red bbox, identify its bounding box in the second image. Choose the correct option from the available choices.\nA. [915, 483, 993, 640]\nB. [156, 359, 338, 591]\nC. [366, 727, 906, 996]\nD. [553, 9, 838, 430]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004798/000.jpg", + "spar_bench/sample_004798/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4799, + "data_source": "SPAR-Bench", + "question": "Where does chair, identified by the red bbox in the first image, appear in the second image? Provide the bounding box. Pick the appropriate option from the choices available.\nA. [632, 534, 999, 999]\nB. [355, 121, 1000, 996]\nC. [368, 171, 688, 739]\nD. [455, 173, 689, 965]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004799/000.jpg", + "spar_bench/sample_004799/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4800, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of picture in the second image, based on its red bbox in the first image. Choose the right answer from the options available.\nA. [736, 0, 1000, 109]\nB. [772, 202, 947, 621]\nC. [169, 722, 302, 1000]\nD. [429, 458, 678, 985]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004800/000.jpg", + "spar_bench/sample_004800/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4801, + "data_source": "SPAR-Bench", + "question": "Locate and provide the bounding box of water cooler in the second image, using its red bbox in the first image. Pick the appropriate option from the choices available.\nA. [0, 432, 406, 999]\nB. [596, 347, 1000, 999]\nC. [360, 225, 666, 639]\nD. [0, 49, 172, 585]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004801/000.jpg", + "spar_bench/sample_004801/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4802, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of chair in the second image using its red bbox from the first image as a reference. Pick the right response from the available choices.\nA. [468, 83, 743, 574]\nB. [0, 50, 207, 424]\nC. [0, 98, 772, 883]\nD. [370, 382, 897, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004802/000.jpg", + "spar_bench/sample_004802/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4803, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of curtain in the second image, using the red bbox from the first image as a guide? Choose the correct answer from the choices available.\nA. [0, 0, 64, 318]\nB. [716, 267, 1000, 998]\nC. [0, 290, 334, 952]\nD. [18, 0, 688, 687]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004803/000.jpg", + "spar_bench/sample_004803/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4804, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of desk in the first image, determine its corresponding bounding box in the second image. Pick the right response from the available choices.\nA. [4, 546, 234, 884]\nB. [467, 718, 992, 998]\nC. [2, 815, 389, 998]\nD. [472, 723, 725, 976]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004804/000.jpg", + "spar_bench/sample_004804/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4805, + "data_source": "SPAR-Bench", + "question": "Where does bottle, identified by the red bbox in the first image, appear in the second image? Provide the bounding box. Select the right response from the available choices.\nA. [440, 371, 502, 545]\nB. [722, 865, 997, 1000]\nC. [248, 747, 589, 999]\nD. [136, 49, 644, 998]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004805/000.jpg", + "spar_bench/sample_004805/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4806, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of chair in the second image, as guided by its red bbox in the first image. Select the right response from the available choices.\nA. [0, 106, 141, 506]\nB. [0, 155, 306, 242]\nC. [128, 266, 485, 906]\nD. [282, 393, 733, 998]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004806/000.jpg", + "spar_bench/sample_004806/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4807, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object dresser in the second image, using its red bbox in the first image as a reference? Select the appropriate option from the given choices.\nA. [83, 329, 509, 998]\nB. [654, 0, 1000, 877]\nC. [937, 1, 1000, 883]\nD. [0, 644, 170, 1000]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004807/000.jpg", + "spar_bench/sample_004807/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4808, + "data_source": "SPAR-Bench", + "question": "From the red bbox of picture in the first image, identify its bounding box in the second image. Pick the correct option from the choices provided.\nA. [815, 450, 1000, 992]\nB. [160, 377, 832, 994]\nC. [895, 0, 1000, 245]\nD. [325, 466, 674, 608]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004808/000.jpg", + "spar_bench/sample_004808/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4809, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of monitor in the second image, with reference to its red bbox in the first image. Pick the appropriate option from the choices provided.\nA. [396, -1, 1000, 998]\nB. [295, 2, 999, 872]\nC. [370, 222, 513, 288]\nD. [694, 189, 1000, 799]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004809/000.jpg", + "spar_bench/sample_004809/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4810, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for sliding door in the second image, as guided by its red bbox in the first image? Pick the right response from the available choices.\nA. [611, 288, 890, 669]\nB. [450, 315, 593, 678]\nC. [0, 0, 298, 506]\nD. [485, 555, 826, 990]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004810/000.jpg", + "spar_bench/sample_004810/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4811, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of trash can in the second image, based on its red bbox in the first image. Pick the correct answer from the choices provided.\nA. [718, 8, 935, 708]\nB. [954, 497, 992, 625]\nC. [152, 428, 350, 705]\nD. [230, 8, 518, 369]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004811/000.jpg", + "spar_bench/sample_004811/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4812, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of window in the first image, determine its corresponding bounding box in the second image. Pick the appropriate option from the choices available.\nA. [917, 190, 1000, 361]\nB. [491, 156, 598, 347]\nC. [403, 0, 759, 108]\nD. [757, 181, 943, 339]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004812/000.jpg", + "spar_bench/sample_004812/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4813, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of boxes in the first image, identify and provide its bounding box in the second image. Select the right option from the choices provided.\nA. [280, 430, 999, 999]\nB. [300, 838, 512, 1000]\nC. [0, 0, 306, 1000]\nD. [272, 480, 610, 990]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004813/000.jpg", + "spar_bench/sample_004813/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannet" + }, + { + "question_id": 4814, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of SPLIT in the first image, determine its corresponding bounding box in the second image. Choose the correct option from the available choices.\nA. [229, 585, 264, 999]\nB. [824, 875, 999, 935]\nC. [97, 589, 148, 999]\nD. [806, 651, 897, 698]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004814/000.jpg", + "spar_bench/sample_004814/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4815, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for stool in the second image, as guided by its red bbox in the first image? Choose the right answer from the options available.\nA. [501, 606, 571, 746]\nB. [619, 0, 999, 999]\nC. [0, 625, 40, 836]\nD. [525, 393, 535, 408]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004815/000.jpg", + "spar_bench/sample_004815/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4816, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of the object electrical duct in the second image, as referenced by its red bbox in the first image. Pick the appropriate answer from the options given.\nA. [631, 122, 999, 334]\nB. [235, 0, 566, 388]\nC. [0, 0, 349, 999]\nD. [594, 378, 630, 431]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004816/000.jpg", + "spar_bench/sample_004816/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4817, + "data_source": "SPAR-Bench", + "question": "Where is cardboard located in the second image, based on its red bbox in the first image? Provide the bounding box. Choose the correct response from the given choices.\nA. [233, 269, 596, 999]\nB. [705, 424, 866, 999]\nC. [325, 0, 660, 642]\nD. [797, 815, 842, 998]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004817/000.jpg", + "spar_bench/sample_004817/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4818, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for bookshelf in the second image, as guided by its red bbox in the first image? Choose the right response from the choices provided.\nA. [483, 697, 555, 800]\nB. [476, 644, 556, 720]\nC. [0, 228, 12, 292]\nD. [275, 129, 454, 483]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004818/000.jpg", + "spar_bench/sample_004818/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4819, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of telephone in the second image, as guided by its red bbox in the first image. Choose the correct option from the available choices.\nA. [293, 919, 451, 999]\nB. [0, 708, 252, 999]\nC. [11, 662, 676, 999]\nD. [198, 898, 305, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004819/000.jpg", + "spar_bench/sample_004819/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4820, + "data_source": "SPAR-Bench", + "question": "Using the position of window sill in the first image (red bbox), find its bounding box in the second image. Choose the right response from the choices provided.\nA. [868, 0, 999, 152]\nB. [610, 19, 660, 41]\nC. [737, 123, 830, 372]\nD. [717, 320, 779, 476]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004820/000.jpg", + "spar_bench/sample_004820/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4821, + "data_source": "SPAR-Bench", + "question": "Locate the position of mouse in the second image, as defined by its red bbox in the first image, and provide the bbox. Pick the appropriate answer from the options given.\nA. [555, 303, 999, 999]\nB. [324, 332, 589, 999]\nC. [91, 408, 212, 528]\nD. [242, 467, 265, 483]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004821/000.jpg", + "spar_bench/sample_004821/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4822, + "data_source": "SPAR-Bench", + "question": "Using the position of picture in the first image (red bbox), find its bounding box in the second image. Choose the correct answer from the choices available.\nA. [387, 117, 491, 201]\nB. [464, 72, 520, 196]\nC. [616, 58, 628, 76]\nD. [676, 66, 861, 351]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004822/000.jpg", + "spar_bench/sample_004822/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4823, + "data_source": "SPAR-Bench", + "question": "Locate the position of lab equipment in the second image, as defined by its red bbox in the first image, and provide the bbox. Choose the correct option from the available choices.\nA. [376, 0, 443, 50]\nB. [481, 0, 769, 144]\nC. [484, 7, 565, 47]\nD. [958, 110, 999, 217]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004823/000.jpg", + "spar_bench/sample_004823/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4824, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of chair in the first image, determine its position in the second image and provide the bounding box. Choose the appropriate option from the choices provided.\nA. [652, 0, 914, 194]\nB. [808, 45, 888, 144]\nC. [0, 0, 608, 589]\nD. [0, 324, 480, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004824/000.jpg", + "spar_bench/sample_004824/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4825, + "data_source": "SPAR-Bench", + "question": "Locate bottle in the second image, based on its red bbox position in the first image, and provide the bounding box. Choose the appropriate option from the choices provided.\nA. [596, 327, 607, 378]\nB. [646, 392, 662, 447]\nC. [544, 0, 944, 209]\nD. [547, 368, 572, 415]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004825/000.jpg", + "spar_bench/sample_004825/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4826, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object power socket in the second image, using its red bbox in the first image as a reference? Please select the correct option from the choices provided.\nA. [768, 82, 909, 168]\nB. [751, 407, 803, 484]\nC. [453, 237, 999, 999]\nD. [894, 72, 999, 265]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004826/000.jpg", + "spar_bench/sample_004826/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4827, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object table in the second image, using its red bbox in the first image as a reference? Choose the appropriate answer from the options given.\nA. [501, 404, 599, 499]\nB. [0, 415, 838, 999]\nC. [727, 417, 999, 676]\nD. [635, 360, 875, 544]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004827/000.jpg", + "spar_bench/sample_004827/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4828, + "data_source": "SPAR-Bench", + "question": "Where does cabinet, identified by the red bbox in the first image, appear in the second image? Provide the bounding box. Choose the correct response from the given choices.\nA. [552, 317, 683, 488]\nB. [634, 112, 755, 331]\nC. [888, 449, 999, 702]\nD. [575, 296, 645, 331]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004828/000.jpg", + "spar_bench/sample_004828/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4829, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of shelf in the second image, using the red bbox from the first image as a reference point. Pick the right response from the available choices.\nA. [0, 585, 468, 999]\nB. [0, 50, 338, 110]\nC. [446, 933, 548, 999]\nD. [695, 0, 999, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004829/000.jpg", + "spar_bench/sample_004829/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4830, + "data_source": "SPAR-Bench", + "question": "Using the position of sofa in the first image (red bbox), find its bounding box in the second image. Select the appropriate option from the given choices.\nA. [50, 0, 364, 99]\nB. [809, 32, 854, 83]\nC. [731, 19, 918, 169]\nD. [418, 34, 564, 129]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004830/000.jpg", + "spar_bench/sample_004830/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4831, + "data_source": "SPAR-Bench", + "question": "From the red bbox of pipe in the first image, find its location in the second image and provide the bounding box. Pick the appropriate answer from the options given.\nA. [887, 188, 999, 460]\nB. [531, 0, 843, 728]\nC. [247, 0, 279, 80]\nD. [853, 94, 999, 426]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004831/000.jpg", + "spar_bench/sample_004831/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4832, + "data_source": "SPAR-Bench", + "question": "From the red bbox of reflection in the first image, identify its bounding box in the second image. Pick the correct option from the choices provided.\nA. [223, 488, 257, 777]\nB. [247, 467, 566, 492]\nC. [121, 959, 162, 999]\nD. [255, 779, 313, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004832/000.jpg", + "spar_bench/sample_004832/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4833, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of table in the second image, as referenced by its red bbox in the first image? Pick the correct option from the choices provided.\nA. [495, 144, 788, 797]\nB. [515, 76, 881, 574]\nC. [0, 0, 193, 657]\nD. [821, 0, 999, 356]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004833/000.jpg", + "spar_bench/sample_004833/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4834, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of split in the second image, based on its red bbox in the first image. Pick the appropriate option from the choices available.\nA. [666, 194, 999, 262]\nB. [803, 210, 890, 403]\nC. [528, 0, 566, 79]\nD. [245, 376, 586, 836]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004834/000.jpg", + "spar_bench/sample_004834/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4835, + "data_source": "SPAR-Bench", + "question": "Where is the object box, shown with a red bbox in the first image, located in the second image? Provide its bounding box. Please select the correct option from the choices provided.\nA. [0, 606, 121, 966]\nB. [394, 818, 478, 851]\nC. [593, 392, 601, 464]\nD. [507, 765, 530, 829]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004835/000.jpg", + "spar_bench/sample_004835/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4836, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of box in the first image, find and report its bounding box in the second image. Pick the appropriate answer from the options given.\nA. [64, 0, 860, 513]\nB. [260, 747, 391, 999]\nC. [279, 724, 381, 846]\nD. [286, 0, 323, 26]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004836/000.jpg", + "spar_bench/sample_004836/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4837, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of mouse in the second image, using its red bbox from the first image as reference. Choose the correct response from the given choices.\nA. [403, 440, 664, 577]\nB. [49, 424, 999, 999]\nC. [21, 340, 171, 433]\nD. [85, 431, 143, 464]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004837/000.jpg", + "spar_bench/sample_004837/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4838, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of trash bin in the second image, with reference to its red bbox in the first image. Select the right option from the choices provided.\nA. [363, 342, 625, 538]\nB. [916, 203, 999, 526]\nC. [437, 38, 711, 962]\nD. [329, 456, 635, 744]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004838/000.jpg", + "spar_bench/sample_004838/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4839, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of light switch in the first image, determine its position in the second image and provide the bounding box. Pick the appropriate option from the choices provided.\nA. [540, 288, 880, 947]\nB. [179, 188, 199, 233]\nC. [358, 204, 528, 326]\nD. [501, 83, 630, 436]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004839/000.jpg", + "spar_bench/sample_004839/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4840, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of water filter in the second image, based on its location in the red bbox of the first image. Pick the appropriate option from the choices provided.\nA. [511, 223, 576, 347]\nB. [690, 0, 721, 84]\nC. [736, 0, 852, 557]\nD. [479, 764, 626, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004840/000.jpg", + "spar_bench/sample_004840/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4841, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of pc in the second image, using its red bbox from the first image as guidance. Select the appropriate option from the given choices.\nA. [842, 527, 867, 553]\nB. [0, 0, 999, 999]\nC. [937, 495, 999, 683]\nD. [252, 127, 351, 936]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004841/000.jpg", + "spar_bench/sample_004841/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4842, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of clothes in the first image, determine its position in the second image and provide the bounding box. Select the correct answer from the given choices.\nA. [868, 778, 894, 876]\nB. [433, 824, 469, 868]\nC. [107, 23, 416, 999]\nD. [603, 617, 749, 986]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004842/000.jpg", + "spar_bench/sample_004842/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4843, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of mouse in the second image, based on its location in the red bbox of the first image. Choose the correct response from the given choices.\nA. [303, 69, 398, 202]\nB. [601, 394, 999, 690]\nC. [395, 0, 490, 117]\nD. [276, 428, 312, 447]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004843/000.jpg", + "spar_bench/sample_004843/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4844, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for shelf in the second image, based on its red bbox location in the first image? Choose the appropriate answer from the options given.\nA. [181, 718, 505, 999]\nB. [18, 729, 199, 999]\nC. [81, 0, 531, 316]\nD. [144, 420, 285, 683]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004844/000.jpg", + "spar_bench/sample_004844/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4845, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of the object table in the second image, based on its red bbox in the first image. Pick the appropriate option from the choices provided.\nA. [479, 108, 569, 140]\nB. [532, 99, 638, 144]\nC. [590, 128, 598, 136]\nD. [424, 122, 999, 519]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004845/000.jpg", + "spar_bench/sample_004845/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4846, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of pumper in the second image, using its red bbox from the first image as reference. Select the appropriate option from the given choices.\nA. [940, 454, 999, 649]\nB. [761, 344, 791, 390]\nC. [394, 456, 468, 609]\nD. [660, 392, 894, 603]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004846/000.jpg", + "spar_bench/sample_004846/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4847, + "data_source": "SPAR-Bench", + "question": "Using the position of sofa in the red bbox from the first image, find its bounding box in the second image. Choose the correct response from the given choices.\nA. [0, 853, 135, 999]\nB. [405, 672, 578, 819]\nC. [782, 597, 850, 678]\nD. [812, 178, 995, 745]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004847/000.jpg", + "spar_bench/sample_004847/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4848, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of laptop in the second image, as defined by its red bbox in the first image. Select the correct answer from the given choices.\nA. [0, 597, 178, 999]\nB. [489, 0, 999, 840]\nC. [198, 436, 229, 464]\nD. [295, 190, 497, 452]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004848/000.jpg", + "spar_bench/sample_004848/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4849, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of pillow in the second image, as referenced by its red bbox in the first image? Select the right option from the choices provided.\nA. [99, 0, 365, 200]\nB. [499, 0, 618, 67]\nC. [23, 0, 699, 372]\nD. [412, 136, 656, 286]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004849/000.jpg", + "spar_bench/sample_004849/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4850, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of cup in the second image, using the red bbox from the first image as a guide. Select the correct answer from the given choices.\nA. [391, 131, 406, 144]\nB. [159, 112, 999, 999]\nC. [616, 6, 805, 390]\nD. [730, 199, 791, 326]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004850/000.jpg", + "spar_bench/sample_004850/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4851, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for backpack in the second image, as guided by its red bbox in the first image? Select the correct response from the given choices.\nA. [262, 550, 669, 999]\nB. [626, 0, 969, 583]\nC. [796, 0, 999, 524]\nD. [375, 391, 561, 575]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004851/000.jpg", + "spar_bench/sample_004851/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4852, + "data_source": "SPAR-Bench", + "question": "From the red bbox of kitchen counter in the first image, identify its bounding box in the second image. Choose the correct response from the given choices.\nA. [661, 0, 999, 999]\nB. [645, 0, 864, 196]\nC. [114, 510, 370, 854]\nD. [0, 665, 959, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004852/000.jpg", + "spar_bench/sample_004852/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4853, + "data_source": "SPAR-Bench", + "question": "Where does windowframe from the red bbox in the first image appear in the second image? Provide the bounding box. Select the appropriate option from the given choices.\nA. [0, 149, 69, 765]\nB. [0, 819, 117, 885]\nC. [0, 135, 83, 780]\nD. [131, 686, 274, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004853/000.jpg", + "spar_bench/sample_004853/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4854, + "data_source": "SPAR-Bench", + "question": "From the red bbox of chair in the first image, find its location in the second image and provide the bounding box. Select the appropriate response from the given choices.\nA. [0, 167, 141, 999]\nB. [208, 286, 436, 804]\nC. [189, 128, 302, 328]\nD. [486, 0, 829, 179]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004854/000.jpg", + "spar_bench/sample_004854/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4855, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object coffee machine in the second image, as seen in the red bbox of the first image? Pick the correct answer from the choices provided.\nA. [687, 572, 999, 999]\nB. [214, 807, 430, 999]\nC. [145, 0, 462, 315]\nD. [0, 635, 161, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004855/000.jpg", + "spar_bench/sample_004855/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4856, + "data_source": "SPAR-Bench", + "question": "Where is the object cup, given as a red bbox in the first image, located in the second image? Provide the bbox. Choose the correct answer from the choices available.\nA. [66, 319, 423, 966]\nB. [0, 0, 114, 232]\nC. [417, 857, 819, 999]\nD. [0, 792, 110, 985]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004856/000.jpg", + "spar_bench/sample_004856/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4857, + "data_source": "SPAR-Bench", + "question": "Where is the object telephone, given as a red bbox in the first image, located in the second image? Provide the bbox. Pick the appropriate answer from the options given.\nA. [2, 685, 19, 741]\nB. [173, 531, 612, 992]\nC. [12, 816, 190, 999]\nD. [804, 408, 999, 544]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004857/000.jpg", + "spar_bench/sample_004857/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4858, + "data_source": "SPAR-Bench", + "question": "Locate the position of jacket in the second image, as defined by its red bbox in the first image, and provide the bbox. Choose the right answer from the options available.\nA. [191, 625, 205, 668]\nB. [251, 414, 544, 676]\nC. [212, 0, 558, 408]\nD. [840, 356, 985, 553]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004858/000.jpg", + "spar_bench/sample_004858/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4859, + "data_source": "SPAR-Bench", + "question": "Identify the position of headboard in the second image, based on its red bbox location in the first image, and provide the bounding box. Choose the appropriate option from the choices provided.\nA. [499, 0, 618, 67]\nB. [99, 0, 365, 200]\nC. [23, 0, 699, 372]\nD. [412, 136, 656, 286]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004859/000.jpg", + "spar_bench/sample_004859/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4860, + "data_source": "SPAR-Bench", + "question": "Based on the red bbox of refrigerator in the first image, locate its bounding box in the second image. Choose the correct option from the available choices.\nA. [794, 414, 999, 999]\nB. [215, 0, 515, 907]\nC. [902, 183, 999, 625]\nD. [0, 0, 518, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004860/000.jpg", + "spar_bench/sample_004860/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4861, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for toilet flush button in the second image, as guided by its red bbox in the first image? Select the right option from the choices provided.\nA. [395, 197, 520, 308]\nB. [827, 569, 940, 712]\nC. [0, 0, 342, 999]\nD. [794, 646, 942, 894]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004861/000.jpg", + "spar_bench/sample_004861/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4862, + "data_source": "SPAR-Bench", + "question": "Where does cushion, shown with a red bbox in the first image, appear in the second image? Provide its bounding box. Please select the correct option from the choices provided.\nA. [5, 0, 533, 236]\nB. [0, 465, 398, 999]\nC. [399, 238, 471, 353]\nD. [768, 269, 868, 357]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004862/000.jpg", + "spar_bench/sample_004862/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4863, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of chair in the first image, find and report its bounding box in the second image. Pick the appropriate option from the choices provided.\nA. [367, 0, 999, 999]\nB. [381, 0, 443, 144]\nC. [0, 77, 194, 527]\nD. [0, 0, 206, 351]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004863/000.jpg", + "spar_bench/sample_004863/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4864, + "data_source": "SPAR-Bench", + "question": "Where is crate located in the second image, based on its red bbox in the first image? Provide the bounding box. Pick the appropriate option from the choices available.\nA. [596, 653, 666, 810]\nB. [769, 137, 788, 155]\nC. [632, 625, 657, 672]\nD. [579, 612, 595, 662]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004864/000.jpg", + "spar_bench/sample_004864/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4865, + "data_source": "SPAR-Bench", + "question": "Where does laboratory equipment, identified by the red bbox in the first image, appear in the second image? Provide the bounding box. Choose the correct option from the available choices.\nA. [0, 367, 390, 401]\nB. [101, 37, 248, 125]\nC. [293, 90, 313, 140]\nD. [490, 0, 549, 40]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004865/000.jpg", + "spar_bench/sample_004865/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4866, + "data_source": "SPAR-Bench", + "question": "Based on the red bbox of bathroom counter in the first image, locate and return its bounding box in the second image. Select the correct answer from the given choices.\nA. [178, 0, 458, 749]\nB. [112, 897, 999, 999]\nC. [522, 671, 624, 999]\nD. [572, 0, 802, 170]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004866/000.jpg", + "spar_bench/sample_004866/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4867, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of office chair in the second image, as defined by its red bbox in the first image. Pick the appropriate answer from the options given.\nA. [683, 629, 736, 757]\nB. [293, 494, 999, 999]\nC. [0, 667, 174, 805]\nD. [455, 375, 569, 551]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004867/000.jpg", + "spar_bench/sample_004867/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4868, + "data_source": "SPAR-Bench", + "question": "From the red bbox of bottle in the first image, determine its bounding box in the second image. Pick the appropriate option from the choices provided.\nA. [0, 281, 61, 442]\nB. [593, 507, 660, 710]\nC. [643, 544, 698, 729]\nD. [714, 547, 787, 722]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004868/000.jpg", + "spar_bench/sample_004868/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4869, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of the object water kettle in the second image, based on its red bbox in the first image. Select the appropriate response from the given choices.\nA. [790, 614, 999, 999]\nB. [728, 472, 951, 964]\nC. [897, 348, 996, 549]\nD. [605, 440, 624, 462]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004869/000.jpg", + "spar_bench/sample_004869/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4870, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of book in the first image, identify and provide its bounding box in the second image. Select the correct answer from the given choices.\nA. [36, 472, 91, 609]\nB. [680, 870, 698, 978]\nC. [669, 567, 698, 672]\nD. [74, 635, 101, 782]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004870/000.jpg", + "spar_bench/sample_004870/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4871, + "data_source": "SPAR-Bench", + "question": "Find and return the bounding box of table in the second image, using the red bbox from the first image as reference. Select the appropriate response from the given choices.\nA. [388, 0, 446, 27]\nB. [424, 109, 506, 349]\nC. [0, 214, 660, 997]\nD. [418, 266, 768, 925]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004871/000.jpg", + "spar_bench/sample_004871/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4872, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of bottle in the second image, using the red bbox from the first image as a reference point. Select the correct response from the given choices.\nA. [0, 230, 999, 999]\nB. [336, 200, 471, 450]\nC. [612, 108, 700, 378]\nD. [406, 269, 513, 439]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004872/000.jpg", + "spar_bench/sample_004872/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4873, + "data_source": "SPAR-Bench", + "question": "Find and provide the bounding box of chair in the second image, as referenced by its red bbox in the first image. Pick the correct answer from the choices provided.\nA. [814, 216, 989, 384]\nB. [208, 162, 431, 290]\nC. [0, 0, 170, 99]\nD. [206, 33, 518, 215]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004873/000.jpg", + "spar_bench/sample_004873/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4874, + "data_source": "SPAR-Bench", + "question": "Where is the object mug, given as a red bbox in the first image, located in the second image? Provide the bbox. Choose the appropriate option from the choices provided.\nA. [0, 465, 398, 999]\nB. [768, 269, 868, 357]\nC. [530, 367, 553, 406]\nD. [607, 392, 703, 449]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004874/000.jpg", + "spar_bench/sample_004874/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4875, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object table in the second image, using its red bbox in the first image as a reference? Choose the appropriate answer from the options given.\nA. [407, 786, 974, 999]\nB. [617, 0, 920, 644]\nC. [232, 912, 433, 999]\nD. [668, 532, 999, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004875/000.jpg", + "spar_bench/sample_004875/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4876, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of cushion in the second image, with reference to its red bbox in the first image. Choose the correct response from the given choices.\nA. [941, 15, 999, 67]\nB. [410, 410, 449, 424]\nC. [431, 355, 465, 396]\nD. [372, 408, 382, 422]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004876/000.jpg", + "spar_bench/sample_004876/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4877, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of whiteboard in the second image, based on its red bbox in the first image. Select the appropriate option from the given choices.\nA. [773, 0, 967, 195]\nB. [335, 628, 399, 690]\nC. [161, 512, 324, 760]\nD. [461, 181, 641, 341]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004877/000.jpg", + "spar_bench/sample_004877/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4878, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of the object chair in the second image, based on its red bbox in the first image. Pick the appropriate option from the choices available.\nA. [816, 215, 999, 258]\nB. [356, 725, 401, 758]\nC. [937, 430, 999, 603]\nD. [383, 331, 674, 774]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004878/000.jpg", + "spar_bench/sample_004878/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4879, + "data_source": "SPAR-Bench", + "question": "Identify the position of shoes in the second image, based on its red bbox location in the first image, and provide the bounding box. Select the appropriate response from the given choices.\nA. [0, 820, 223, 999]\nB. [530, 272, 613, 381]\nC. [535, 149, 636, 276]\nD. [444, 269, 540, 372]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004879/000.jpg", + "spar_bench/sample_004879/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4880, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of chair in the second image, based on its location in the red bbox of the first image. Choose the right response from the choices provided.\nA. [343, 418, 454, 595]\nB. [269, 494, 442, 898]\nC. [343, 355, 474, 453]\nD. [477, 344, 629, 504]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004880/000.jpg", + "spar_bench/sample_004880/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4881, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of cushion in the second image, based on its red bbox in the first image. Please select the correct option from the choices provided.\nA. [210, 412, 478, 630]\nB. [632, 0, 805, 425]\nC. [0, 760, 511, 999]\nD. [10, 537, 102, 624]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004881/000.jpg", + "spar_bench/sample_004881/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4882, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of office chair in the second image, with reference to its red bbox in the first image. Choose the correct response from the given choices.\nA. [215, 221, 411, 512]\nB. [0, 237, 88, 434]\nC. [0, 376, 702, 868]\nD. [479, 312, 730, 842]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004882/000.jpg", + "spar_bench/sample_004882/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4883, + "data_source": "SPAR-Bench", + "question": "Using the position of copy machine in the red bbox of the first image, locate its bounding box in the second image. Please select the correct option from the choices provided.\nA. [356, 536, 531, 758]\nB. [368, 378, 535, 556]\nC. [543, 233, 664, 422]\nD. [614, 492, 999, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004883/000.jpg", + "spar_bench/sample_004883/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4884, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of chair in the second image, as defined by its red bbox in the first image. Choose the correct response from the given choices.\nA. [0, 158, 143, 569]\nB. [224, 394, 499, 562]\nC. [139, 138, 149, 161]\nD. [206, 120, 218, 140]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004884/000.jpg", + "spar_bench/sample_004884/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4885, + "data_source": "SPAR-Bench", + "question": "Where is the object picture, shown with a red bbox in the first image, located in the second image? Provide its bounding box. Choose the correct answer from the choices available.\nA. [710, 713, 816, 844]\nB. [790, 527, 854, 722]\nC. [447, 413, 506, 512]\nD. [189, 676, 971, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004885/000.jpg", + "spar_bench/sample_004885/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4886, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of toilet paper dispenser in the second image, using its red bbox from the first image as reference. Select the correct answer from the given choices.\nA. [4, 834, 64, 963]\nB. [0, 424, 72, 581]\nC. [492, 426, 510, 450]\nD. [579, 235, 999, 544]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004886/000.jpg", + "spar_bench/sample_004886/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4887, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of windowsill in the second image, based on its red bbox in the first image. Choose the appropriate option from the choices provided.\nA. [381, 665, 627, 999]\nB. [383, 408, 706, 529]\nC. [0, 0, 342, 385]\nD. [0, 660, 445, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004887/000.jpg", + "spar_bench/sample_004887/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4888, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of the object wooden plank in the second image, as referenced by its red bbox in the first image. Pick the appropriate option from the choices provided.\nA. [189, 0, 477, 469]\nB. [609, 294, 668, 483]\nC. [113, 0, 317, 445]\nD. [648, 58, 709, 472]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004888/000.jpg", + "spar_bench/sample_004888/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4889, + "data_source": "SPAR-Bench", + "question": "Find and provide the bounding box of box in the second image, as referenced by its red bbox in the first image. Select the right option from the choices provided.\nA. [540, 423, 884, 778]\nB. [556, 837, 662, 999]\nC. [317, 816, 486, 999]\nD. [384, 897, 498, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004889/000.jpg", + "spar_bench/sample_004889/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4890, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of tap in the second image, based on its location in the red bbox of the first image. Pick the right response from the available choices.\nA. [131, 103, 166, 208]\nB. [123, 206, 303, 270]\nC. [35, 198, 205, 259]\nD. [191, 0, 346, 56]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004890/000.jpg", + "spar_bench/sample_004890/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4891, + "data_source": "SPAR-Bench", + "question": "Where is the object fridge, given as a red bbox in the first image, located in the second image? Provide the bbox. Choose the right answer from the options available.\nA. [0, 0, 927, 999]\nB. [27, 632, 127, 926]\nC. [84, 458, 508, 999]\nD. [206, 210, 230, 249]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004891/000.jpg", + "spar_bench/sample_004891/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4892, + "data_source": "SPAR-Bench", + "question": "Locate office chair in the second image, based on its red bbox position in the first image, and provide the bounding box. Choose the correct response from the given choices.\nA. [0, 290, 449, 939]\nB. [82, 0, 908, 690]\nC. [85, 0, 296, 206]\nD. [0, 57, 198, 516]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004892/000.jpg", + "spar_bench/sample_004892/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4893, + "data_source": "SPAR-Bench", + "question": "Where does clothes from the red bbox in the first image appear in the second image? Provide the bounding box. Choose the correct response from the given choices.\nA. [317, 892, 489, 999]\nB. [45, 558, 108, 785]\nC. [255, 681, 269, 917]\nD. [292, 362, 405, 519]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004893/000.jpg", + "spar_bench/sample_004893/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4894, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of monitor in the first image, determine its position in the second image and provide the bounding box. Pick the appropriate answer from the options given.\nA. [31, 0, 387, 669]\nB. [0, 0, 133, 755]\nC. [751, 449, 999, 999]\nD. [309, 458, 770, 969]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004894/000.jpg", + "spar_bench/sample_004894/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4895, + "data_source": "SPAR-Bench", + "question": "Where does file from the red bbox in the first image appear in the second image? Provide the bounding box. Select the correct answer from the given choices.\nA. [894, 964, 999, 999]\nB. [353, 916, 476, 980]\nC. [181, 974, 330, 999]\nD. [871, 774, 930, 833]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004895/000.jpg", + "spar_bench/sample_004895/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4896, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object trash bin in the second image, using its red bbox in the first image as a reference? Please select the correct option from the choices provided.\nA. [600, 0, 896, 333]\nB. [859, 485, 890, 560]\nC. [691, 292, 887, 555]\nD. [0, 0, 393, 785]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004896/000.jpg", + "spar_bench/sample_004896/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4897, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of table in the second image, using the red bbox from the first image as a guide. Pick the appropriate option from the choices available.\nA. [810, 701, 999, 999]\nB. [162, 765, 739, 999]\nC. [0, 538, 35, 660]\nD. [529, 650, 911, 917]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004897/000.jpg", + "spar_bench/sample_004897/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4898, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of the object sofa in the second image, based on its red bbox in the first image. Choose the appropriate option from the choices provided.\nA. [711, 428, 999, 743]\nB. [257, 67, 507, 295]\nC. [173, 143, 482, 450]\nD. [701, 222, 999, 436]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004898/000.jpg", + "spar_bench/sample_004898/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4899, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of the object whiteboard in the second image, as referenced by its red bbox in the first image. Choose the appropriate option from the choices provided.\nA. [869, 209, 999, 473]\nB. [0, 624, 232, 819]\nC. [302, 0, 661, 51]\nD. [0, 0, 343, 685]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004899/000.jpg", + "spar_bench/sample_004899/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4900, + "data_source": "SPAR-Bench", + "question": "Given toilet paper with its red bbox in the first image, identify its bounding box in the second image. Choose the right response from the choices provided.\nA. [735, 814, 793, 992]\nB. [815, 801, 832, 883]\nC. [486, 738, 588, 906]\nD. [23, 681, 92, 850]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004900/000.jpg", + "spar_bench/sample_004900/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4901, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object laboratory bench in the second image, using its red bbox in the first image as a reference? Select the appropriate option from the given choices.\nA. [0, 367, 390, 401]\nB. [0, 0, 394, 934]\nC. [631, 0, 638, 92]\nD. [490, 0, 549, 40]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004901/000.jpg", + "spar_bench/sample_004901/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4902, + "data_source": "SPAR-Bench", + "question": "From the red bbox of kitchen counter in the first image, find its location in the second image and provide the bounding box. Select the correct answer from the given choices.\nA. [662, 188, 999, 725]\nB. [246, 419, 534, 893]\nC. [78, 424, 999, 999]\nD. [39, 174, 153, 409]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004902/000.jpg", + "spar_bench/sample_004902/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4903, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of the object box in the second image, based on its red bbox in the first image. Choose the correct option from the available choices.\nA. [88, 34, 836, 946]\nB. [626, 642, 849, 869]\nC. [834, 481, 948, 593]\nD. [904, 457, 943, 481]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004903/000.jpg", + "spar_bench/sample_004903/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4904, + "data_source": "SPAR-Bench", + "question": "Where is trash can, identified by the red bbox in the first image, located in the second image? Provide its bounding box. Choose the appropriate option from the choices provided.\nA. [348, 341, 507, 609]\nB. [279, 464, 456, 762]\nC. [719, 0, 933, 169]\nD. [771, 0, 999, 141]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004904/000.jpg", + "spar_bench/sample_004904/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4905, + "data_source": "SPAR-Bench", + "question": "Using the position of cabinet in the red bbox from the first image, find its bounding box in the second image. Pick the appropriate option from the choices available.\nA. [552, 538, 651, 999]\nB. [938, 817, 947, 856]\nC. [609, 481, 683, 569]\nD. [456, 360, 512, 579]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004905/000.jpg", + "spar_bench/sample_004905/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4906, + "data_source": "SPAR-Bench", + "question": "Find and provide the bounding box of copy machine in the second image, as referenced by its red bbox in the first image. Choose the right answer from the options available.\nA. [731, 524, 856, 852]\nB. [14, 0, 868, 999]\nC. [0, 438, 125, 999]\nD. [786, 152, 999, 872]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004906/000.jpg", + "spar_bench/sample_004906/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4907, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for table in the second image, as guided by its red bbox in the first image? Choose the appropriate answer from the options given.\nA. [522, 76, 585, 122]\nB. [0, 231, 90, 635]\nC. [809, 32, 854, 83]\nD. [633, 47, 674, 78]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004907/000.jpg", + "spar_bench/sample_004907/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4908, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of whiteboard in the second image, as referenced by its red bbox in the first image. Choose the right response from the choices provided.\nA. [598, 449, 999, 590]\nB. [0, 87, 322, 551]\nC. [607, 442, 683, 549]\nD. [482, 552, 682, 831]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004908/000.jpg", + "spar_bench/sample_004908/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4909, + "data_source": "SPAR-Bench", + "question": "Find and provide the bounding box of trash bin in the second image, as referenced by its red bbox in the first image. Pick the appropriate answer from the options given.\nA. [104, 249, 263, 460]\nB. [116, 209, 166, 279]\nC. [285, 313, 491, 630]\nD. [0, 326, 503, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004909/000.jpg", + "spar_bench/sample_004909/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4910, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of shelf in the first image, determine its corresponding bounding box in the second image. Pick the appropriate answer from the options given.\nA. [608, 701, 810, 997]\nB. [0, 18, 355, 378]\nC. [815, 567, 999, 999]\nD. [526, 716, 634, 994]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004910/000.jpg", + "spar_bench/sample_004910/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4911, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of box in the second image, as defined by its red bbox in the first image. Choose the correct answer from the choices available.\nA. [517, 434, 714, 669]\nB. [403, 565, 596, 924]\nC. [111, 620, 176, 716]\nD. [578, 649, 799, 912]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004911/000.jpg", + "spar_bench/sample_004911/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4912, + "data_source": "SPAR-Bench", + "question": "Where is sink located in the second image, based on its red bbox in the first image? Provide the bounding box. Pick the appropriate option from the choices provided.\nA. [123, 264, 199, 352]\nB. [258, 392, 927, 999]\nC. [249, 190, 315, 360]\nD. [0, 256, 430, 609]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004912/000.jpg", + "spar_bench/sample_004912/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4913, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of box in the second image, based on its red bbox in the first image. Choose the appropriate answer from the options given.\nA. [78, 423, 347, 717]\nB. [456, 0, 921, 999]\nC. [91, 184, 355, 999]\nD. [246, 608, 342, 731]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004913/000.jpg", + "spar_bench/sample_004913/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4914, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object umbrella in the second image, as seen in the red bbox of the first image? Pick the appropriate option from the choices provided.\nA. [0, 141, 768, 999]\nB. [595, 285, 999, 999]\nC. [0, 0, 43, 214]\nD. [652, 297, 888, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004914/000.jpg", + "spar_bench/sample_004914/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4915, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of phone in the second image, using its red bbox from the first image as guidance. Choose the appropriate answer from the options given.\nA. [722, 472, 955, 651]\nB. [128, 0, 503, 334]\nC. [720, 294, 977, 541]\nD. [635, 151, 745, 263]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004915/000.jpg", + "spar_bench/sample_004915/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4916, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of book in the second image, using its red bbox from the first image as guidance. Pick the correct option from the choices provided.\nA. [0, 401, 138, 441]\nB. [0, 440, 97, 479]\nC. [0, 403, 130, 460]\nD. [0, 238, 39, 396]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004916/000.jpg", + "spar_bench/sample_004916/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4917, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of kitchen counter in the second image, as referenced by its red bbox in the first image? Select the right option from the choices provided.\nA. [51, 615, 810, 999]\nB. [240, 540, 358, 738]\nC. [664, 595, 999, 999]\nD. [134, 0, 999, 121]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004917/000.jpg", + "spar_bench/sample_004917/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4918, + "data_source": "SPAR-Bench", + "question": "Find and provide the bounding box of monitor in the second image, as referenced by its red bbox in the first image. Select the appropriate response from the given choices.\nA. [448, 0, 799, 344]\nB. [0, 92, 626, 939]\nC. [102, 0, 464, 191]\nD. [162, 153, 359, 257]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004918/000.jpg", + "spar_bench/sample_004918/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4919, + "data_source": "SPAR-Bench", + "question": "From the red bbox of shelf in the first image, identify its bounding box in the second image. Choose the correct answer from the choices available.\nA. [0, 418, 160, 628]\nB. [96, 550, 206, 626]\nC. [0, 506, 588, 999]\nD. [0, 0, 490, 308]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004919/000.jpg", + "spar_bench/sample_004919/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4920, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of chair in the first image, find and report its bounding box in the second image. Pick the appropriate option from the choices available.\nA. [202, 166, 365, 397]\nB. [322, 221, 512, 443]\nC. [337, 98, 411, 244]\nD. [137, 313, 709, 667]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004920/000.jpg", + "spar_bench/sample_004920/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4921, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of bottle in the second image using its red bbox from the first image as a reference. Pick the appropriate option from the choices available.\nA. [591, 160, 627, 267]\nB. [614, 126, 645, 241]\nC. [0, 775, 429, 999]\nD. [584, 0, 821, 377]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004921/000.jpg", + "spar_bench/sample_004921/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4922, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of table in the second image, with reference to its red bbox in the first image. Pick the correct option from the choices provided.\nA. [317, 28, 999, 587]\nB. [799, 35, 831, 55]\nC. [813, 30, 977, 338]\nD. [459, 0, 882, 801]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004922/000.jpg", + "spar_bench/sample_004922/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4923, + "data_source": "SPAR-Bench", + "question": "From the red bbox of book in the first image, find its location in the second image and provide the bounding box. Pick the appropriate option from the choices provided.\nA. [430, 44, 876, 696]\nB. [376, 501, 491, 690]\nC. [104, 767, 205, 846]\nD. [109, 864, 260, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004923/000.jpg", + "spar_bench/sample_004923/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4924, + "data_source": "SPAR-Bench", + "question": "Where is the object utensils, shown with a red bbox in the first image, located in the second image? Provide its bounding box. Choose the right answer from the options available.\nA. [220, 549, 345, 722]\nB. [574, 728, 608, 915]\nC. [418, 506, 469, 517]\nD. [498, 195, 536, 291]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004924/000.jpg", + "spar_bench/sample_004924/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4925, + "data_source": "SPAR-Bench", + "question": "Where does box from the red bbox in the first image appear in the second image? Provide the bounding box. Choose the right response from the choices provided.\nA. [326, 757, 629, 999]\nB. [641, 328, 999, 512]\nC. [265, 376, 606, 844]\nD. [0, 0, 339, 935]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004925/000.jpg", + "spar_bench/sample_004925/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4926, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of shampoo bottle in the first image, determine its position in the second image and provide the bounding box. Select the appropriate option from the given choices.\nA. [295, 974, 339, 999]\nB. [670, 889, 705, 999]\nC. [701, 876, 745, 999]\nD. [586, 703, 612, 858]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004926/000.jpg", + "spar_bench/sample_004926/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4927, + "data_source": "SPAR-Bench", + "question": "Using the position of shelf in the red bbox of the first image, locate its bounding box in the second image. Pick the appropriate option from the choices available.\nA. [695, 0, 999, 999]\nB. [534, 815, 706, 999]\nC. [0, 50, 338, 110]\nD. [0, 585, 468, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004927/000.jpg", + "spar_bench/sample_004927/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4928, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of office chair in the second image, using the red bbox from the first image as a guide. Select the appropriate response from the given choices.\nA. [0, 617, 135, 779]\nB. [788, 186, 888, 269]\nC. [986, 328, 999, 405]\nD. [694, 84, 999, 553]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004928/000.jpg", + "spar_bench/sample_004928/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4929, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object box in the second image, as seen in the red bbox of the first image? Select the correct answer from the given choices.\nA. [0, 482, 999, 999]\nB. [855, 165, 999, 499]\nC. [878, 480, 999, 689]\nD. [533, 523, 754, 801]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004929/000.jpg", + "spar_bench/sample_004929/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4930, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of tv remote in the first image, find and report its bounding box in the second image. Select the right response from the available choices.\nA. [350, 730, 508, 999]\nB. [315, 426, 999, 712]\nC. [71, 155, 312, 568]\nD. [52, 438, 149, 566]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004930/000.jpg", + "spar_bench/sample_004930/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4931, + "data_source": "SPAR-Bench", + "question": "Determine the bounding box of clothes hanger in the second image, based on its red bbox in the first image. Choose the correct answer from the choices available.\nA. [7, 858, 168, 999]\nB. [677, 335, 783, 787]\nC. [396, 886, 417, 912]\nD. [119, 344, 392, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004931/000.jpg", + "spar_bench/sample_004931/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4932, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of the object computer tower in the second image, based on its red bbox in the first image. Please select the correct option from the choices provided.\nA. [478, 894, 707, 999]\nB. [532, 892, 537, 900]\nC. [328, 0, 374, 159]\nD. [439, 108, 475, 152]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004932/000.jpg", + "spar_bench/sample_004932/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4933, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of window sill in the second image using its red bbox from the first image as a reference. Please select the correct option from the choices provided.\nA. [340, 113, 662, 161]\nB. [340, 104, 664, 128]\nC. [642, 174, 999, 526]\nD. [497, 266, 616, 556]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004933/000.jpg", + "spar_bench/sample_004933/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4934, + "data_source": "SPAR-Bench", + "question": "Where does cabinet, shown with a red bbox in the first image, appear in the second image? Provide its bounding box. Pick the appropriate option from the choices available.\nA. [0, 444, 98, 882]\nB. [328, 44, 419, 223]\nC. [306, 925, 999, 999]\nD. [675, 508, 999, 996]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004934/000.jpg", + "spar_bench/sample_004934/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4935, + "data_source": "SPAR-Bench", + "question": "Where does chair, shown with a red bbox in the first image, appear in the second image? Provide its bounding box. Choose the right answer from the options available.\nA. [931, 215, 999, 299]\nB. [680, 125, 756, 237]\nC. [838, 290, 999, 477]\nD. [636, 111, 641, 126]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004935/000.jpg", + "spar_bench/sample_004935/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4936, + "data_source": "SPAR-Bench", + "question": "Where is shoe located in the second image, based on its red bbox in the first image? Provide the bounding box. Pick the right response from the available choices.\nA. [119, 384, 182, 454]\nB. [507, 160, 651, 531]\nC. [0, 212, 71, 504]\nD. [134, 572, 205, 631]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004936/000.jpg", + "spar_bench/sample_004936/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4937, + "data_source": "SPAR-Bench", + "question": "Where does sink, identified by the red bbox in the first image, appear in the second image? Provide the bounding box. Select the correct response from the given choices.\nA. [0, 0, 304, 924]\nB. [153, 265, 216, 424]\nC. [745, 508, 811, 640]\nD. [1, 421, 228, 605]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004937/000.jpg", + "spar_bench/sample_004937/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4938, + "data_source": "SPAR-Bench", + "question": "Identify the position of SPLIT in the second image, based on its red bbox location in the first image, and provide the bounding box. Select the appropriate response from the given choices.\nA. [0, 0, 242, 501]\nB. [15, 0, 240, 206]\nC. [615, 147, 795, 722]\nD. [365, 916, 638, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004938/000.jpg", + "spar_bench/sample_004938/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4939, + "data_source": "SPAR-Bench", + "question": "Given keyboard with its red bbox in the first image, identify its bounding box in the second image. Select the appropriate response from the given choices.\nA. [795, 0, 999, 319]\nB. [386, 351, 480, 404]\nC. [288, 283, 733, 740]\nD. [0, 65, 140, 185]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004939/000.jpg", + "spar_bench/sample_004939/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4940, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of chair in the second image, as guided by its red bbox in the first image. Select the correct answer from the given choices.\nA. [510, 306, 647, 435]\nB. [138, 425, 329, 817]\nC. [847, 229, 999, 528]\nD. [115, 336, 271, 576]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004940/000.jpg", + "spar_bench/sample_004940/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4941, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of trash bin in the second image, using its red bbox from the first image as reference. Choose the correct option from the available choices.\nA. [396, 0, 502, 238]\nB. [495, 0, 571, 212]\nC. [916, 84, 947, 107]\nD. [680, 247, 702, 268]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004941/000.jpg", + "spar_bench/sample_004941/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4942, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of toilet in the first image, find and report its bounding box in the second image. Select the correct response from the given choices.\nA. [584, 157, 646, 288]\nB. [568, 0, 673, 301]\nC. [181, 0, 429, 585]\nD. [421, 216, 489, 431]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004942/000.jpg", + "spar_bench/sample_004942/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4943, + "data_source": "SPAR-Bench", + "question": "Find and provide the bounding box of whiteboard in the second image, as referenced by its red bbox in the first image. Choose the appropriate answer from the options given.\nA. [506, 22, 623, 118]\nB. [694, 0, 876, 113]\nC. [0, 144, 146, 209]\nD. [883, 0, 999, 317]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004943/000.jpg", + "spar_bench/sample_004943/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4944, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of structure in the second image, using its red bbox from the first image as guidance. Select the appropriate response from the given choices.\nA. [374, 651, 703, 999]\nB. [779, 9, 999, 474]\nC. [178, 217, 373, 576]\nD. [127, 0, 344, 457]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004944/000.jpg", + "spar_bench/sample_004944/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4945, + "data_source": "SPAR-Bench", + "question": "Where is the object cabinet, shown with a red bbox in the first image, located in the second image? Provide its bounding box. Pick the appropriate option from the choices available.\nA. [882, 0, 999, 401]\nB. [705, 520, 999, 938]\nC. [833, 235, 999, 817]\nD. [0, 0, 466, 775]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004945/000.jpg", + "spar_bench/sample_004945/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4946, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of power socket in the first image, find and return its bounding box in the second image. Pick the appropriate option from the choices available.\nA. [587, 798, 999, 999]\nB. [117, 762, 166, 792]\nC. [881, 765, 931, 794]\nD. [81, 765, 643, 974]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004946/000.jpg", + "spar_bench/sample_004946/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4947, + "data_source": "SPAR-Bench", + "question": "Where is the object file, shown with a red bbox in the first image, located in the second image? Provide its bounding box. Pick the right response from the available choices.\nA. [145, 279, 451, 899]\nB. [584, 194, 702, 265]\nC. [495, 182, 597, 229]\nD. [681, 251, 830, 324]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004947/000.jpg", + "spar_bench/sample_004947/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4948, + "data_source": "SPAR-Bench", + "question": "From the red bbox of bedside cabinet in the first image, identify its bounding box in the second image. Pick the appropriate option from the choices available.\nA. [0, 606, 197, 999]\nB. [342, 406, 398, 534]\nC. [0, 654, 167, 855]\nD. [528, 813, 807, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004948/000.jpg", + "spar_bench/sample_004948/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4949, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of bottle crate in the second image using its red bbox from the first image as a reference. Pick the appropriate option from the choices available.\nA. [845, 469, 999, 931]\nB. [0, 174, 52, 481]\nC. [474, 265, 596, 344]\nD. [344, 623, 364, 819]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004949/000.jpg", + "spar_bench/sample_004949/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4950, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of whiteboard from the first image, determine its bounding box in the second image. Choose the correct response from the given choices.\nA. [670, 547, 999, 813]\nB. [393, 410, 517, 542]\nC. [0, 865, 236, 999]\nD. [805, 0, 999, 406]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004950/000.jpg", + "spar_bench/sample_004950/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4951, + "data_source": "SPAR-Bench", + "question": "From the red bbox of bottle in the first image, identify its bounding box in the second image. Select the appropriate option from the given choices.\nA. [797, 191, 820, 253]\nB. [764, 163, 786, 213]\nC. [334, 353, 359, 422]\nD. [821, 192, 854, 240]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004951/000.jpg", + "spar_bench/sample_004951/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4952, + "data_source": "SPAR-Bench", + "question": "Locate table lamp in the second image, based on its red bbox position in the first image, and provide the bounding box. Pick the correct answer from the choices provided.\nA. [833, 394, 885, 469]\nB. [963, 241, 999, 329]\nC. [482, 173, 503, 261]\nD. [0, 519, 177, 970]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004952/000.jpg", + "spar_bench/sample_004952/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4953, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of the object footstool in the second image, based on its red bbox in the first image. Choose the right response from the choices provided.\nA. [0, 0, 634, 258]\nB. [345, 185, 699, 290]\nC. [361, 508, 491, 682]\nD. [495, 38, 999, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004953/000.jpg", + "spar_bench/sample_004953/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4954, + "data_source": "SPAR-Bench", + "question": "Where is sofa, shown with a red bbox in the first image, located in the second image? Provide the bbox details. Pick the appropriate answer from the options given.\nA. [782, 597, 850, 678]\nB. [439, 558, 661, 751]\nC. [812, 178, 995, 745]\nD. [672, 569, 957, 840]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004954/000.jpg", + "spar_bench/sample_004954/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4955, + "data_source": "SPAR-Bench", + "question": "Given flush button in the first image with its red bbox, identify its bounding box in the second image. Pick the correct answer from the choices provided.\nA. [233, 360, 525, 576]\nB. [557, 836, 645, 999]\nC. [90, 743, 297, 999]\nD. [282, 582, 539, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004955/000.jpg", + "spar_bench/sample_004955/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4956, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of the object monitor in the second image, based on its red bbox in the first image. Select the correct answer from the given choices.\nA. [570, 242, 999, 721]\nB. [541, 217, 728, 453]\nC. [139, 0, 400, 516]\nD. [602, 549, 784, 731]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004956/000.jpg", + "spar_bench/sample_004956/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4957, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of towel in the second image, based on its location in the red bbox of the first image. Select the appropriate response from the given choices.\nA. [217, 488, 317, 614]\nB. [585, 435, 999, 999]\nC. [783, 278, 810, 309]\nD. [321, 534, 344, 609]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004957/000.jpg", + "spar_bench/sample_004957/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4958, + "data_source": "SPAR-Bench", + "question": "Where is table, identified by the red bbox in the first image, located in the second image? Provide its bounding box. Select the right response from the available choices.\nA. [0, 0, 555, 623]\nB. [882, 556, 999, 884]\nC. [366, 759, 442, 999]\nD. [366, 692, 449, 850]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004958/000.jpg", + "spar_bench/sample_004958/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4959, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for table in the second image, based on its red bbox location in the first image? Select the correct response from the given choices.\nA. [12, 182, 161, 278]\nB. [595, 206, 735, 251]\nC. [101, 365, 999, 999]\nD. [227, 227, 385, 323]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004959/000.jpg", + "spar_bench/sample_004959/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4960, + "data_source": "SPAR-Bench", + "question": "From the red bbox of shelf in the first image, find its location in the second image and provide the bounding box. Select the correct response from the given choices.\nA. [0, 0, 965, 192]\nB. [419, 242, 770, 671]\nC. [304, 486, 426, 580]\nD. [761, 456, 897, 511]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004960/000.jpg", + "spar_bench/sample_004960/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4961, + "data_source": "SPAR-Bench", + "question": "Where does cloth from the red bbox in the first image appear in the second image? Provide the bounding box. Pick the appropriate option from the choices available.\nA. [541, 405, 762, 760]\nB. [0, 0, 207, 367]\nC. [440, 717, 679, 999]\nD. [592, 456, 999, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004961/000.jpg", + "spar_bench/sample_004961/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4962, + "data_source": "SPAR-Bench", + "question": "Find and return the bounding box of window in the second image, using the red bbox from the first image as reference. Select the appropriate option from the given choices.\nA. [207, 0, 566, 277]\nB. [393, 344, 421, 364]\nC. [0, 0, 237, 280]\nD. [64, 310, 999, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004962/000.jpg", + "spar_bench/sample_004962/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4963, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of coax socket in the first image, identify and provide its bounding box in the second image. Choose the appropriate answer from the options given.\nA. [728, 412, 869, 518]\nB. [956, 274, 999, 382]\nC. [937, 447, 999, 547]\nD. [6, 183, 999, 466]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004963/000.jpg", + "spar_bench/sample_004963/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4964, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of window frame in the second image, as referenced by its red bbox in the first image. Pick the correct option from the choices provided.\nA. [782, 597, 850, 678]\nB. [672, 569, 957, 840]\nC. [0, 853, 135, 999]\nD. [812, 178, 995, 745]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004964/000.jpg", + "spar_bench/sample_004964/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4965, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of cabinet in the second image, as referenced by its red bbox in the first image. Select the appropriate option from the given choices.\nA. [203, 380, 332, 524]\nB. [196, 511, 385, 788]\nC. [477, 368, 553, 495]\nD. [0, 389, 247, 679]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004965/000.jpg", + "spar_bench/sample_004965/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4966, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of the object office chair in the second image, based on its red bbox in the first image. Pick the right response from the available choices.\nA. [914, 155, 975, 265]\nB. [386, 0, 532, 165]\nC. [0, 340, 273, 802]\nD. [643, 15, 999, 297]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004966/000.jpg", + "spar_bench/sample_004966/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4967, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of water kettle in the second image, using the red bbox from the first image as a reference point. Pick the appropriate answer from the options given.\nA. [761, 426, 835, 599]\nB. [902, 705, 999, 999]\nC. [379, 644, 839, 999]\nD. [9, 656, 126, 808]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004967/000.jpg", + "spar_bench/sample_004967/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4968, + "data_source": "SPAR-Bench", + "question": "Based on the red bbox of post-it in the first image, locate its bounding box in the second image. Choose the correct response from the given choices.\nA. [821, 0, 949, 231]\nB. [819, 280, 865, 290]\nC. [8, 0, 511, 547]\nD. [677, 217, 997, 634]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004968/000.jpg", + "spar_bench/sample_004968/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4969, + "data_source": "SPAR-Bench", + "question": "Identify the position of headboard in the second image, based on its red bbox location in the first image, and provide the bounding box. Choose the correct answer from the choices available.\nA. [0, 137, 999, 999]\nB. [649, 207, 832, 296]\nC. [619, 0, 682, 235]\nD. [698, 0, 999, 315]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004969/000.jpg", + "spar_bench/sample_004969/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4970, + "data_source": "SPAR-Bench", + "question": "Locate whiteboard eraser in the second image, based on its red bbox position in the first image, and provide the bounding box. Select the appropriate option from the given choices.\nA. [232, 543, 244, 549]\nB. [368, 723, 429, 894]\nC. [234, 124, 790, 553]\nD. [869, 96, 999, 548]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004970/000.jpg", + "spar_bench/sample_004970/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4971, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of the object structure in the second image, based on its red bbox in the first image. Pick the appropriate option from the choices available.\nA. [908, 331, 952, 365]\nB. [0, 112, 162, 372]\nC. [42, 508, 592, 999]\nD. [313, 172, 415, 375]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004971/000.jpg", + "spar_bench/sample_004971/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4972, + "data_source": "SPAR-Bench", + "question": "Identify the bounding box of delivery bag in the second image, using its red bbox from the first image as reference. Pick the appropriate answer from the options given.\nA. [253, 0, 358, 625]\nB. [598, 268, 603, 297]\nC. [189, 590, 371, 884]\nD. [228, 515, 302, 628]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004972/000.jpg", + "spar_bench/sample_004972/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4973, + "data_source": "SPAR-Bench", + "question": "From the red bbox of bed in the first image, find its location in the second image and provide the bounding box. Choose the correct response from the given choices.\nA. [643, 165, 999, 929]\nB. [441, 540, 711, 953]\nC. [0, 0, 469, 751]\nD. [0, 7, 239, 593]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004973/000.jpg", + "spar_bench/sample_004973/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4974, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object pipe in the second image, as seen in the red bbox of the first image? Select the appropriate option from the given choices.\nA. [868, 181, 999, 652]\nB. [0, 567, 45, 789]\nC. [245, 0, 459, 758]\nD. [0, 313, 216, 431]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004974/000.jpg", + "spar_bench/sample_004974/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4975, + "data_source": "SPAR-Bench", + "question": "Where is the object office chair, given as a red bbox in the first image, located in the second image? Provide the bbox. Pick the correct answer from the choices provided.\nA. [608, 276, 999, 968]\nB. [0, 695, 465, 999]\nC. [0, 155, 811, 895]\nD. [449, 43, 530, 228]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004975/000.jpg", + "spar_bench/sample_004975/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4976, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of trash bin in the second image, as guided by its red bbox in the first image. Choose the appropriate answer from the options given.\nA. [223, 433, 429, 548]\nB. [22, 0, 990, 113]\nC. [786, 451, 968, 812]\nD. [0, 0, 999, 147]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004976/000.jpg", + "spar_bench/sample_004976/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4977, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of chair in the second image, using its red bbox from the first image as guidance. Choose the appropriate option from the choices provided.\nA. [896, 112, 971, 284]\nB. [447, 0, 658, 989]\nC. [796, 138, 872, 425]\nD. [810, 89, 939, 365]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004977/000.jpg", + "spar_bench/sample_004977/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4978, + "data_source": "SPAR-Bench", + "question": "Find and provide the bounding box of toothpaste in the second image, as referenced by its red bbox in the first image. Select the appropriate option from the given choices.\nA. [439, 596, 580, 794]\nB. [261, 627, 369, 667]\nC. [27, 731, 355, 999]\nD. [381, 0, 897, 283]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004978/000.jpg", + "spar_bench/sample_004978/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4979, + "data_source": "SPAR-Bench", + "question": "Locate and provide the bounding box of chair in the second image, using its red bbox in the first image. Choose the correct answer from the choices available.\nA. [518, 267, 961, 346]\nB. [774, 266, 844, 308]\nC. [507, 103, 535, 175]\nD. [146, 0, 402, 235]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004979/000.jpg", + "spar_bench/sample_004979/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4980, + "data_source": "SPAR-Bench", + "question": "Based on the red bbox of chopping board in the first image, locate and return its bounding box in the second image. Select the correct answer from the given choices.\nA. [222, 0, 372, 295]\nB. [489, 860, 676, 999]\nC. [289, 401, 571, 644]\nD. [47, 319, 130, 424]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004980/000.jpg", + "spar_bench/sample_004980/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4981, + "data_source": "SPAR-Bench", + "question": "Where is the object chair, shown with a red bbox in the first image, located in the second image? Provide its bounding box. Choose the right response from the choices provided.\nA. [251, 195, 376, 228]\nB. [55, 88, 148, 156]\nC. [710, 173, 999, 794]\nD. [136, 212, 215, 252]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004981/000.jpg", + "spar_bench/sample_004981/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4982, + "data_source": "SPAR-Bench", + "question": "Where is power socket, identified by the red bbox in the first image, located in the second image? Provide its bounding box. Please select the correct option from the choices provided.\nA. [0, 665, 751, 999]\nB. [324, 639, 367, 672]\nC. [329, 731, 351, 762]\nD. [326, 778, 553, 880]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004982/000.jpg", + "spar_bench/sample_004982/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4983, + "data_source": "SPAR-Bench", + "question": "What is the bounding box for cable duct in the second image, as guided by its red bbox in the first image? Choose the correct answer from the choices available.\nA. [280, 686, 449, 995]\nB. [0, 414, 137, 613]\nC. [548, 208, 642, 324]\nD. [0, 21, 999, 396]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004983/000.jpg", + "spar_bench/sample_004983/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4984, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of column in the first image, determine its position in the second image and provide the bounding box. Pick the appropriate option from the choices provided.\nA. [810, 701, 999, 999]\nB. [162, 765, 739, 999]\nC. [196, 0, 469, 860]\nD. [0, 538, 35, 660]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004984/000.jpg", + "spar_bench/sample_004984/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4985, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of box in the first image, find and report its bounding box in the second image. Select the right response from the available choices.\nA. [26, 708, 54, 753]\nB. [44, 667, 175, 765]\nC. [79, 528, 220, 582]\nD. [18, 349, 239, 580]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004985/000.jpg", + "spar_bench/sample_004985/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4986, + "data_source": "SPAR-Bench", + "question": "Based on the red bbox of drying rack in the first image, locate its bounding box in the second image. Pick the appropriate option from the choices provided.\nA. [74, 626, 120, 690]\nB. [130, 0, 422, 269]\nC. [657, 161, 828, 542]\nD. [683, 757, 727, 815]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004986/000.jpg", + "spar_bench/sample_004986/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4987, + "data_source": "SPAR-Bench", + "question": "Based on the red bbox of utensils in the first image, locate and return its bounding box in the second image. Pick the appropriate option from the choices provided.\nA. [393, 522, 457, 561]\nB. [356, 428, 395, 501]\nC. [335, 403, 397, 482]\nD. [667, 279, 721, 332]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004987/000.jpg", + "spar_bench/sample_004987/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4988, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of chair in the second image, with reference to its red bbox in the first image. Select the appropriate option from the given choices.\nA. [686, 394, 754, 478]\nB. [197, 501, 282, 562]\nC. [504, 428, 595, 558]\nD. [215, 408, 421, 540]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004988/000.jpg", + "spar_bench/sample_004988/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4989, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of window frame in the first image, determine its corresponding bounding box in the second image. Pick the right response from the available choices.\nA. [0, 0, 944, 373]\nB. [835, 0, 999, 369]\nC. [469, 576, 999, 999]\nD. [65, 610, 301, 727]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004989/000.jpg", + "spar_bench/sample_004989/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4990, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of tripod from the first image, determine its bounding box in the second image. Select the appropriate option from the given choices.\nA. [127, 63, 359, 277]\nB. [509, 183, 645, 660]\nC. [532, 81, 625, 172]\nD. [532, 0, 631, 78]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004990/000.jpg", + "spar_bench/sample_004990/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4991, + "data_source": "SPAR-Bench", + "question": "From the red bbox of desk lamp in the first image, identify its bounding box in the second image. Pick the correct answer from the choices provided.\nA. [333, 507, 399, 560]\nB. [0, 101, 143, 165]\nC. [462, 148, 580, 499]\nD. [123, 497, 197, 552]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004991/000.jpg", + "spar_bench/sample_004991/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4992, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of plate from the first image, determine its bounding box in the second image. Select the appropriate response from the given choices.\nA. [723, 134, 999, 261]\nB. [240, 269, 272, 321]\nC. [928, 83, 983, 128]\nD. [832, 168, 999, 233]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004992/000.jpg", + "spar_bench/sample_004992/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4993, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of joined tables in the first image, determine its corresponding bounding box in the second image. Choose the correct option from the available choices.\nA. [0, 108, 288, 786]\nB. [453, 29, 482, 71]\nC. [477, 573, 771, 999]\nD. [579, 0, 678, 122]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004993/000.jpg", + "spar_bench/sample_004993/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4994, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of toilet in the second image, as defined by its red bbox in the first image. Select the right option from the choices provided.\nA. [12, 0, 694, 429]\nB. [140, 886, 210, 999]\nC. [640, 499, 999, 977]\nD. [316, 694, 531, 983]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004994/000.jpg", + "spar_bench/sample_004994/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4995, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of the object toilet paper in the second image, using its red bbox in the first image as a reference? Select the right option from the choices provided.\nA. [842, 148, 999, 628]\nB. [475, 0, 702, 135]\nC. [863, 460, 958, 619]\nD. [652, 412, 724, 631]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004995/000.jpg", + "spar_bench/sample_004995/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4996, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of water pipe in the second image, with reference to its red bbox in the first image. Select the appropriate response from the given choices.\nA. [73, 0, 118, 429]\nB. [484, 349, 559, 433]\nC. [30, 492, 184, 601]\nD. [723, 281, 737, 470]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004996/000.jpg", + "spar_bench/sample_004996/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4997, + "data_source": "SPAR-Bench", + "question": "Where does storage cabinet from the red bbox in the first image appear in the second image? Provide the bounding box. Select the right response from the available choices.\nA. [516, 634, 570, 738]\nB. [0, 513, 232, 633]\nC. [432, 731, 672, 999]\nD. [725, 680, 999, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004997/000.jpg", + "spar_bench/sample_004997/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4998, + "data_source": "SPAR-Bench", + "question": "Find and return the bounding box of monitor in the second image, using the red bbox from the first image as reference. Select the right option from the choices provided.\nA. [117, 762, 166, 792]\nB. [122, 617, 236, 931]\nC. [0, 731, 101, 999]\nD. [571, 775, 623, 843]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004998/000.jpg", + "spar_bench/sample_004998/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 4999, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of structure in the first image, determine its position in the second image and provide the bounding box. Pick the appropriate option from the choices provided.\nA. [626, 0, 992, 92]\nB. [651, 51, 669, 76]\nC. [0, 631, 105, 884]\nD. [955, 143, 999, 410]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_004999/000.jpg", + "spar_bench/sample_004999/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5000, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of pipe in the second image, with reference to its red bbox in the first image. Choose the correct answer from the choices available.\nA. [0, 0, 347, 512]\nB. [162, 600, 251, 847]\nC. [374, 529, 677, 956]\nD. [10, 0, 732, 447]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_005000/000.jpg", + "spar_bench/sample_005000/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5001, + "data_source": "SPAR-Bench", + "question": "Locate the bounding box of SPLIT in the second image, as defined by its red bbox in the first image. Choose the right answer from the options available.\nA. [0, 0, 740, 999]\nB. [406, 722, 487, 973]\nC. [0, 264, 714, 999]\nD. [705, 552, 999, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_005001/000.jpg", + "spar_bench/sample_005001/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5002, + "data_source": "SPAR-Bench", + "question": "Using the red bbox of paper in the first image, find and return its bounding box in the second image. Choose the appropriate answer from the options given.\nA. [0, 279, 287, 999]\nB. [0, 241, 318, 999]\nC. [901, 250, 999, 297]\nD. [297, 501, 418, 702]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_005002/000.jpg", + "spar_bench/sample_005002/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5003, + "data_source": "SPAR-Bench", + "question": "Where is the object heater, shown with a red bbox in the first image, located in the second image? Provide its bounding box. Select the appropriate option from the given choices.\nA. [828, 424, 999, 955]\nB. [357, 346, 999, 999]\nC. [0, 0, 392, 188]\nD. [351, 234, 615, 406]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_005003/000.jpg", + "spar_bench/sample_005003/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5004, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of ladder in the second image, using the red bbox from the first image as a reference point. Choose the correct option from the available choices.\nA. [575, 528, 665, 999]\nB. [164, 264, 481, 505]\nC. [170, 472, 585, 999]\nD. [0, 921, 173, 999]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_005004/000.jpg", + "spar_bench/sample_005004/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5005, + "data_source": "SPAR-Bench", + "question": "Where is toilet, identified by the red bbox in the first image, located in the second image? Provide its bounding box. Choose the right response from the choices provided.\nA. [282, 582, 539, 999]\nB. [557, 836, 645, 999]\nC. [90, 743, 297, 999]\nD. [233, 360, 525, 576]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_005005/000.jpg", + "spar_bench/sample_005005/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5006, + "data_source": "SPAR-Bench", + "question": "Provide the bounding box of chair in the second image, using its red bbox from the first image as guidance. Choose the appropriate option from the choices provided.\nA. [348, 341, 507, 609]\nB. [135, 633, 359, 940]\nC. [771, 0, 999, 141]\nD. [451, 0, 568, 152]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_005006/000.jpg", + "spar_bench/sample_005006/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5007, + "data_source": "SPAR-Bench", + "question": "Given coax outlet in the first image with its red bbox, identify its bounding box in the second image. Select the correct answer from the given choices.\nA. [531, 549, 571, 615]\nB. [982, 410, 999, 448]\nC. [443, 585, 482, 670]\nD. [342, 644, 383, 715]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_005007/000.jpg", + "spar_bench/sample_005007/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5008, + "data_source": "SPAR-Bench", + "question": "Find the bounding box of box in the second image, based on its location in the red bbox of the first image. Pick the correct answer from the choices provided.\nA. [779, 460, 938, 608]\nB. [479, 583, 604, 878]\nC. [813, 558, 999, 638]\nD. [667, 732, 736, 840]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_005008/000.jpg", + "spar_bench/sample_005008/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5009, + "data_source": "SPAR-Bench", + "question": "What is the bounding box of books in the second image, as referenced by its red bbox in the first image? Pick the appropriate option from the choices provided.\nA. [466, 67, 701, 269]\nB. [765, 103, 914, 171]\nC. [707, 336, 817, 455]\nD. [697, 413, 814, 562]\nYour answer can only include one of the options A, B, C, or D.", + "image_path": [ + "spar_bench/sample_005009/000.jpg", + "spar_bench/sample_005009/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "position_matching", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5010, + "data_source": "SPAR-Bench", + "question": "Estimate where the second image\u2019s observer would appear when projected onto the first image\u2019s coordinate space. Provide image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(569, 18), Depth:1.1 meters\nB. Image Coor:(96, 785), Depth:1.1 meters\nC. Image Coor:(86, 595), Depth:1.1 meters\nD. Image Coor:(771, 298), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005010/000.jpg", + "spar_bench/sample_005010/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5011, + "data_source": "SPAR-Bench", + "question": "Given two images, determine where the second image\u2019s observer is positioned in the first image. Output image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(544, 141), Depth:2.6 meters\nB. Image Coor:(731, 838), Depth:3.7 meters\nC. Image Coor:(947, 136), Depth:1.4 meters\nD. Image Coor:(303, 501), Depth:3.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005011/000.jpg", + "spar_bench/sample_005011/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5012, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s spatial reference, where does the observer of the second image appear? Provide image-plane coordinates and depth in meters. Choose the correct option from the available choices.\nA. Image Coor:(988, 572), Depth:0.2 meters\nB. Image Coor:(318, 354), Depth:0.3 meters\nC. Image Coor:(829, 89), Depth:0.4 meters\nD. Image Coor:(846, 124), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005012/000.jpg", + "spar_bench/sample_005012/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5013, + "data_source": "SPAR-Bench", + "question": "Find the mapped location of the second image\u2019s observer within the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(487, 156), Depth:2.2 meters\nB. Image Coor:(996, 536), Depth:1.7 meters\nC. Image Coor:(358, 641), Depth:2.1 meters\nD. Image Coor:(565, 540), Depth:3.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005013/000.jpg", + "spar_bench/sample_005013/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5014, + "data_source": "SPAR-Bench", + "question": "Given two viewpoints, determine the position of the observer of the second image as seen in the first image\u2019s coordinate system. Provide image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(131, 719), Depth:3.1 meters\nB. Image Coor:(628, 996), Depth:2.7 meters\nC. Image Coor:(177, 325), Depth:2.3 meters\nD. Image Coor:(681, 17), Depth:2.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005014/000.jpg", + "spar_bench/sample_005014/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5015, + "data_source": "SPAR-Bench", + "question": "If the second image\u2019s observer was positioned in the first image\u2019s space, where would they appear? Provide 2D image-plane coordinates and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(637, 23), Depth:0.8 meters\nB. Image Coor:(139, 661), Depth:0.4 meters\nC. Image Coor:(213, 873), Depth:1.2 meters\nD. Image Coor:(532, 808), Depth:1.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005015/000.jpg", + "spar_bench/sample_005015/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5016, + "data_source": "SPAR-Bench", + "question": "Based on the given images, determine where the second image\u2019s observer is located in the first image. Provide image-plane coordinates and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(205, 323), Depth:0.3 meters\nB. Image Coor:(991, 293), Depth:0.3 meters\nC. Image Coor:(152, 509), Depth:0.7 meters\nD. Image Coor:(658, 237), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005016/000.jpg", + "spar_bench/sample_005016/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5017, + "data_source": "SPAR-Bench", + "question": "Given two images, determine where the second image\u2019s observer is positioned in the first image. Output image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(591, 104), Depth:0.0 meters\nB. Image Coor:(258, 10), Depth:0.0 meters\nC. Image Coor:(529, 443), Depth:0.0 meters\nD. Image Coor:(36, 571), Depth:0.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005017/000.jpg", + "spar_bench/sample_005017/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5018, + "data_source": "SPAR-Bench", + "question": "Given two viewpoints, determine the position of the observer of the second image as seen in the first image\u2019s coordinate system. Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(151, 628), Depth:0.6 meters\nB. Image Coor:(283, 683), Depth:0.3 meters\nC. Image Coor:(385, 593), Depth:0.3 meters\nD. Image Coor:(648, 399), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005018/000.jpg", + "spar_bench/sample_005018/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5019, + "data_source": "SPAR-Bench", + "question": "Where would the second image\u2019s observer appear in the first image? Answer with image-plane coordinates (X, Y) and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(858, 482), Depth:1.4 meters\nB. Image Coor:(881, 813), Depth:1.8 meters\nC. Image Coor:(613, 182), Depth:1.9 meters\nD. Image Coor:(21, 887), Depth:2.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005019/000.jpg", + "spar_bench/sample_005019/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5020, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Pick the appropriate answer from the options given.\nA. Image Coor:(137, 680), Depth:0.8 meters\nB. Image Coor:(219, 881), Depth:0.8 meters\nC. Image Coor:(689, 933), Depth:0.8 meters\nD. Image Coor:(648, 573), Depth:0.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005020/000.jpg", + "spar_bench/sample_005020/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5021, + "data_source": "SPAR-Bench", + "question": "Given two images, determine where the second image\u2019s observer is positioned in the first image. Output image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(693, 267), Depth:0.0 meters\nB. Image Coor:(978, 518), Depth:0.0 meters\nC. Image Coor:(589, 959), Depth:0.0 meters\nD. Image Coor:(199, 83), Depth:0.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005021/000.jpg", + "spar_bench/sample_005021/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5022, + "data_source": "SPAR-Bench", + "question": "Given two viewpoints, determine the position of the observer of the second image as seen in the first image\u2019s coordinate system. Provide image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(766, 439), Depth:0.7 meters\nB. Image Coor:(285, 973), Depth:0.7 meters\nC. Image Coor:(36, 685), Depth:0.7 meters\nD. Image Coor:(404, 185), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005022/000.jpg", + "spar_bench/sample_005022/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5023, + "data_source": "SPAR-Bench", + "question": "Estimate where the second image\u2019s observer would appear when projected onto the first image\u2019s coordinate space. Provide image-plane coordinates and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(924, 315), Depth:2.2 meters\nB. Image Coor:(111, 838), Depth:1.5 meters\nC. Image Coor:(684, 721), Depth:1.6 meters\nD. Image Coor:(673, 114), Depth:3.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005023/000.jpg", + "spar_bench/sample_005023/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5024, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(74, 806), Depth:1.5 meters\nB. Image Coor:(225, 3), Depth:1.6 meters\nC. Image Coor:(890, 766), Depth:1.1 meters\nD. Image Coor:(711, 404), Depth:1.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005024/000.jpg", + "spar_bench/sample_005024/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5025, + "data_source": "SPAR-Bench", + "question": "Estimate the image-plane location and depth in meters of the second image\u2019s observer as it appears in the first image\u2019s coordinate space. Select the correct response from the given choices.\nA. Image Coor:(361, 430), Depth:0.4 meters\nB. Image Coor:(620, 65), Depth:0.4 meters\nC. Image Coor:(866, 429), Depth:0.2 meters\nD. Image Coor:(763, 660), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005025/000.jpg", + "spar_bench/sample_005025/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5026, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Select the right response from the available choices.\nA. Image Coor:(230, 541), Depth:0.4 meters\nB. Image Coor:(643, 321), Depth:0.3 meters\nC. Image Coor:(392, 629), Depth:0.7 meters\nD. Image Coor:(21, 150), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005026/000.jpg", + "spar_bench/sample_005026/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5027, + "data_source": "SPAR-Bench", + "question": "How does the camera\u2019s movement between the two images affect its position in the first image? Provide (X, Y) image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(377, 148), Depth:0.7 meters\nB. Image Coor:(817, 969), Depth:0.7 meters\nC. Image Coor:(35, 350), Depth:0.7 meters\nD. Image Coor:(720, 493), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005027/000.jpg", + "spar_bench/sample_005027/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5028, + "data_source": "SPAR-Bench", + "question": "From the first image\u2019s perspective, determine the 2D image-plane coordinates and depth in meters of the second image\u2019s observer. Pick the right response from the available choices.\nA. Image Coor:(635, 553), Depth:1.4 meters\nB. Image Coor:(925, 641), Depth:1.6 meters\nC. Image Coor:(63, 521), Depth:1.1 meters\nD. Image Coor:(191, 956), Depth:1.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005028/000.jpg", + "spar_bench/sample_005028/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5029, + "data_source": "SPAR-Bench", + "question": "Identify the observer's position in the second image relative to the first image. Provide (X, Y) in the image plane and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(270, 750), Depth:1.1 meters\nB. Image Coor:(957, 517), Depth:1.1 meters\nC. Image Coor:(481, 325), Depth:1.1 meters\nD. Image Coor:(25, 623), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005029/000.jpg", + "spar_bench/sample_005029/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5030, + "data_source": "SPAR-Bench", + "question": "Where is the second image\u2019s observer when projected into the first image\u2019s coordinate frame? Provide 2D image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(234, 953), Depth:0.0 meters\nB. Image Coor:(806, 650), Depth:0.0 meters\nC. Image Coor:(222, 289), Depth:0.0 meters\nD. Image Coor:(530, 78), Depth:0.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005030/000.jpg", + "spar_bench/sample_005030/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5031, + "data_source": "SPAR-Bench", + "question": "Project the observer from the second image into the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Choose the correct option from the available choices.\nA. Image Coor:(894, 894), Depth:0.4 meters\nB. Image Coor:(721, 70), Depth:0.4 meters\nC. Image Coor:(531, 778), Depth:0.5 meters\nD. Image Coor:(965, 499), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005031/000.jpg", + "spar_bench/sample_005031/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5032, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s spatial reference, where does the observer of the second image appear? Provide image-plane coordinates and depth in meters. Pick the appropriate answer from the options given.\nA. Image Coor:(535, 164), Depth:0.2 meters\nB. Image Coor:(328, 776), Depth:0.3 meters\nC. Image Coor:(991, 318), Depth:0.3 meters\nD. Image Coor:(210, 163), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005032/000.jpg", + "spar_bench/sample_005032/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5033, + "data_source": "SPAR-Bench", + "question": "Identify the observer's position in the second image relative to the first image. Provide (X, Y) in the image plane and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(169, 51), Depth:1.7 meters\nB. Image Coor:(896, 929), Depth:1.6 meters\nC. Image Coor:(136, 454), Depth:1.8 meters\nD. Image Coor:(200, 576), Depth:1.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005033/000.jpg", + "spar_bench/sample_005033/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5034, + "data_source": "SPAR-Bench", + "question": "From the perspective of the first image, where would the observer of the second image appear? Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(106, 320), Depth:0.7 meters\nB. Image Coor:(213, 144), Depth:0.7 meters\nC. Image Coor:(607, 478), Depth:0.7 meters\nD. Image Coor:(930, 320), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005034/000.jpg", + "spar_bench/sample_005034/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5035, + "data_source": "SPAR-Bench", + "question": "Determine where the observer from the second image is located in the coordinate system of the first image. Provide image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(278, 747), Depth:0.7 meters\nB. Image Coor:(436, 49), Depth:1.0 meters\nC. Image Coor:(612, 992), Depth:0.7 meters\nD. Image Coor:(477, 990), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005035/000.jpg", + "spar_bench/sample_005035/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5036, + "data_source": "SPAR-Bench", + "question": "From the first image\u2019s perspective, determine the 2D image-plane coordinates and depth in meters of the second image\u2019s observer. Choose the correct response from the given choices.\nA. Image Coor:(516, 1), Depth:1.4 meters\nB. Image Coor:(399, 664), Depth:1.8 meters\nC. Image Coor:(103, 149), Depth:2.0 meters\nD. Image Coor:(858, 964), Depth:2.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005036/000.jpg", + "spar_bench/sample_005036/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5037, + "data_source": "SPAR-Bench", + "question": "Locate the observer from the second image within the coordinate frame of the first image. Give 2D image-plane coordinates and depth in meters. Select the right response from the available choices.\nA. Image Coor:(499, 281), Depth:1.5 meters\nB. Image Coor:(211, 631), Depth:1.9 meters\nC. Image Coor:(120, 11), Depth:1.9 meters\nD. Image Coor:(484, 695), Depth:1.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005037/000.jpg", + "spar_bench/sample_005037/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5038, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s image-plane position and depth in meters in the first image when considering the viewpoint change between the two images. Select the appropriate response from the given choices.\nA. Image Coor:(12, 50), Depth:0.4 meters\nB. Image Coor:(693, 903), Depth:0.3 meters\nC. Image Coor:(492, 631), Depth:0.3 meters\nD. Image Coor:(190, 565), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005038/000.jpg", + "spar_bench/sample_005038/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5039, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(705, 270), Depth:0.5 meters\nB. Image Coor:(244, 794), Depth:0.5 meters\nC. Image Coor:(77, 165), Depth:0.7 meters\nD. Image Coor:(990, 763), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005039/000.jpg", + "spar_bench/sample_005039/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5040, + "data_source": "SPAR-Bench", + "question": "How does the camera\u2019s movement between the two images affect its position in the first image? Provide (X, Y) image-plane coordinates and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(313, 507), Depth:0.5 meters\nB. Image Coor:(566, 97), Depth:0.5 meters\nC. Image Coor:(715, 905), Depth:0.5 meters\nD. Image Coor:(107, 621), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005040/000.jpg", + "spar_bench/sample_005040/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5041, + "data_source": "SPAR-Bench", + "question": "Estimate where the second image\u2019s observer would appear when projected onto the first image\u2019s coordinate space. Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(861, 127), Depth:0.3 meters\nB. Image Coor:(780, 592), Depth:0.3 meters\nC. Image Coor:(571, 824), Depth:0.3 meters\nD. Image Coor:(526, 268), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005041/000.jpg", + "spar_bench/sample_005041/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5042, + "data_source": "SPAR-Bench", + "question": "How can the observer\u2019s position in the second image be represented in the first image? Output 2D image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(358, 757), Depth:2.3 meters\nB. Image Coor:(582, 744), Depth:2.3 meters\nC. Image Coor:(903, 631), Depth:2.3 meters\nD. Image Coor:(460, 57), Depth:2.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005042/000.jpg", + "spar_bench/sample_005042/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5043, + "data_source": "SPAR-Bench", + "question": "Given two images, estimate the 2D image-plane position and depth of the second image\u2019s observer in the first image\u2019s coordinate system. Pick the appropriate option from the choices available.\nA. Image Coor:(943, 856), Depth:1.5 meters\nB. Image Coor:(122, 630), Depth:1.7 meters\nC. Image Coor:(603, 501), Depth:1.2 meters\nD. Image Coor:(265, 625), Depth:1.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005043/000.jpg", + "spar_bench/sample_005043/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5044, + "data_source": "SPAR-Bench", + "question": "Determine the 2D image-plane location and depth (in meters) of the second image\u2019s observer in the first image. Choose the appropriate option from the choices provided.\nA. Image Coor:(400, 123), Depth:2.1 meters\nB. Image Coor:(70, 705), Depth:2.1 meters\nC. Image Coor:(125, 692), Depth:2.1 meters\nD. Image Coor:(236, 638), Depth:2.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005044/000.jpg", + "spar_bench/sample_005044/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5045, + "data_source": "SPAR-Bench", + "question": "Estimate where the second image\u2019s observer would appear when projected onto the first image\u2019s coordinate space. Provide image-plane coordinates and depth in meters. Choose the appropriate answer from the options given.\nA. Image Coor:(30, 826), Depth:0.3 meters\nB. Image Coor:(563, 88), Depth:0.4 meters\nC. Image Coor:(394, 586), Depth:0.3 meters\nD. Image Coor:(674, 956), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005045/000.jpg", + "spar_bench/sample_005045/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5046, + "data_source": "SPAR-Bench", + "question": "Estimate the position of the second image\u2019s observer in the first image\u2019s reference system. Provide image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(235, 137), Depth:0.5 meters\nB. Image Coor:(177, 881), Depth:0.7 meters\nC. Image Coor:(826, 716), Depth:0.5 meters\nD. Image Coor:(162, 939), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005046/000.jpg", + "spar_bench/sample_005046/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5047, + "data_source": "SPAR-Bench", + "question": "In the coordinate system of the first image, locate the observer from the second image. Provide 2D image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(384, 946), Depth:1.6 meters\nB. Image Coor:(712, 288), Depth:2.9 meters\nC. Image Coor:(709, 715), Depth:2.5 meters\nD. Image Coor:(494, 57), Depth:3.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005047/000.jpg", + "spar_bench/sample_005047/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5048, + "data_source": "SPAR-Bench", + "question": "Project the observer from the second image into the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Select the appropriate response from the given choices.\nA. Image Coor:(940, 520), Depth:1.5 meters\nB. Image Coor:(300, 683), Depth:0.9 meters\nC. Image Coor:(254, 871), Depth:1.2 meters\nD. Image Coor:(309, 927), Depth:2.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005048/000.jpg", + "spar_bench/sample_005048/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5049, + "data_source": "SPAR-Bench", + "question": "Locate the observer from the second image within the coordinate frame of the first image. Give 2D image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(178, 15), Depth:0.9 meters\nB. Image Coor:(931, 339), Depth:0.6 meters\nC. Image Coor:(274, 927), Depth:1.1 meters\nD. Image Coor:(975, 692), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005049/000.jpg", + "spar_bench/sample_005049/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5050, + "data_source": "SPAR-Bench", + "question": "Estimate the image-plane location and depth in meters of the second image\u2019s observer as it appears in the first image\u2019s coordinate space. Pick the correct answer from the choices provided.\nA. Image Coor:(764, 278), Depth:2.4 meters\nB. Image Coor:(620, 780), Depth:2.4 meters\nC. Image Coor:(458, 445), Depth:2.4 meters\nD. Image Coor:(62, 924), Depth:2.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005050/000.jpg", + "spar_bench/sample_005050/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5051, + "data_source": "SPAR-Bench", + "question": "What are the projected 2D image-plane coordinates and depth (in meters) of the second image\u2019s observer in the first image\u2019s coordinate space? Select the right response from the available choices.\nA. Image Coor:(775, 278), Depth:0.2 meters\nB. Image Coor:(206, 146), Depth:0.2 meters\nC. Image Coor:(202, 555), Depth:0.2 meters\nD. Image Coor:(797, 991), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005051/000.jpg", + "spar_bench/sample_005051/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5052, + "data_source": "SPAR-Bench", + "question": "If the second image is taken from a new viewpoint, what is its camera\u2019s location in the first image? Answer with 2D image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(809, 142), Depth:2.0 meters\nB. Image Coor:(937, 970), Depth:1.2 meters\nC. Image Coor:(44, 625), Depth:2.2 meters\nD. Image Coor:(218, 757), Depth:1.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005052/000.jpg", + "spar_bench/sample_005052/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5053, + "data_source": "SPAR-Bench", + "question": "What are the projected 2D image-plane coordinates and depth (in meters) of the second image\u2019s observer in the first image\u2019s coordinate space? Pick the appropriate option from the choices available.\nA. Image Coor:(114, 385), Depth:1.1 meters\nB. Image Coor:(360, 976), Depth:1.1 meters\nC. Image Coor:(821, 560), Depth:0.8 meters\nD. Image Coor:(783, 208), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005053/000.jpg", + "spar_bench/sample_005053/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5054, + "data_source": "SPAR-Bench", + "question": "Where would the second image\u2019s observer appear in the first image? Answer with image-plane coordinates (X, Y) and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(361, 479), Depth:0.4 meters\nB. Image Coor:(874, 179), Depth:0.4 meters\nC. Image Coor:(333, 119), Depth:0.4 meters\nD. Image Coor:(955, 614), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005054/000.jpg", + "spar_bench/sample_005054/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5055, + "data_source": "SPAR-Bench", + "question": "Estimate the position of the second image\u2019s observer in the first image\u2019s reference system. Provide image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(497, 543), Depth:1.1 meters\nB. Image Coor:(380, 214), Depth:1.1 meters\nC. Image Coor:(850, 932), Depth:1.1 meters\nD. Image Coor:(941, 850), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005055/000.jpg", + "spar_bench/sample_005055/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5056, + "data_source": "SPAR-Bench", + "question": "Given two viewpoints, determine the position of the observer of the second image as seen in the first image\u2019s coordinate system. Provide image-plane coordinates and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(556, 353), Depth:0.6 meters\nB. Image Coor:(80, 203), Depth:0.4 meters\nC. Image Coor:(769, 5), Depth:0.5 meters\nD. Image Coor:(85, 724), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005056/000.jpg", + "spar_bench/sample_005056/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5057, + "data_source": "SPAR-Bench", + "question": "How can the observer\u2019s position in the second image be represented in the first image? Output 2D image-plane coordinates and depth in meters. Pick the appropriate answer from the options given.\nA. Image Coor:(167, 220), Depth:1.4 meters\nB. Image Coor:(366, 823), Depth:1.4 meters\nC. Image Coor:(18, 847), Depth:1.4 meters\nD. Image Coor:(747, 590), Depth:1.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005057/000.jpg", + "spar_bench/sample_005057/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5058, + "data_source": "SPAR-Bench", + "question": "Estimate the position of the second image\u2019s observer in the first image\u2019s reference system. Provide image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(61, 818), Depth:0.0 meters\nB. Image Coor:(480, 832), Depth:0.0 meters\nC. Image Coor:(868, 205), Depth:0.0 meters\nD. Image Coor:(357, 127), Depth:0.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005058/000.jpg", + "spar_bench/sample_005058/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5059, + "data_source": "SPAR-Bench", + "question": "How can the observer\u2019s position in the second image be represented in the first image? Output 2D image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(894, 604), Depth:2.6 meters\nB. Image Coor:(497, 163), Depth:2.6 meters\nC. Image Coor:(342, 514), Depth:2.6 meters\nD. Image Coor:(72, 165), Depth:2.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005059/000.jpg", + "spar_bench/sample_005059/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5060, + "data_source": "SPAR-Bench", + "question": "Given two images, estimate the 2D image-plane position and depth of the second image\u2019s observer in the first image\u2019s coordinate system. Select the correct answer from the given choices.\nA. Image Coor:(93, 951), Depth:1.9 meters\nB. Image Coor:(969, 53), Depth:1.6 meters\nC. Image Coor:(414, 668), Depth:1.0 meters\nD. Image Coor:(694, 701), Depth:1.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005060/000.jpg", + "spar_bench/sample_005060/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5061, + "data_source": "SPAR-Bench", + "question": "From the perspective of the first image, where is the camera from the second image located? Provide image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(888, 724), Depth:1.8 meters\nB. Image Coor:(9, 25), Depth:1.8 meters\nC. Image Coor:(359, 228), Depth:1.8 meters\nD. Image Coor:(622, 744), Depth:1.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005061/000.jpg", + "spar_bench/sample_005061/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5062, + "data_source": "SPAR-Bench", + "question": "How does the observer of the second image map onto the first image? Provide 2D image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(283, 296), Depth:0.3 meters\nB. Image Coor:(9, 702), Depth:0.3 meters\nC. Image Coor:(726, 453), Depth:0.3 meters\nD. Image Coor:(895, 918), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005062/000.jpg", + "spar_bench/sample_005062/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5063, + "data_source": "SPAR-Bench", + "question": "If the second image is taken from a new viewpoint, what is its camera\u2019s location in the first image? Answer with 2D image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(169, 805), Depth:0.4 meters\nB. Image Coor:(407, 14), Depth:0.6 meters\nC. Image Coor:(722, 303), Depth:0.5 meters\nD. Image Coor:(438, 54), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005063/000.jpg", + "spar_bench/sample_005063/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5064, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(250, 390), Depth:5.1 meters\nB. Image Coor:(681, 46), Depth:4.2 meters\nC. Image Coor:(89, 172), Depth:5.0 meters\nD. Image Coor:(6, 277), Depth:4.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005064/000.jpg", + "spar_bench/sample_005064/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5065, + "data_source": "SPAR-Bench", + "question": "Determine where the observer from the second image is located in the coordinate system of the first image. Provide image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(165, 904), Depth:1.9 meters\nB. Image Coor:(147, 871), Depth:1.5 meters\nC. Image Coor:(123, 526), Depth:2.1 meters\nD. Image Coor:(667, 867), Depth:1.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005065/000.jpg", + "spar_bench/sample_005065/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5066, + "data_source": "SPAR-Bench", + "question": "If the second image\u2019s observer was positioned in the first image\u2019s space, where would they appear? Provide 2D image-plane coordinates and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(442, 18), Depth:1.5 meters\nB. Image Coor:(727, 987), Depth:0.7 meters\nC. Image Coor:(729, 656), Depth:0.9 meters\nD. Image Coor:(104, 269), Depth:1.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005066/000.jpg", + "spar_bench/sample_005066/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5067, + "data_source": "SPAR-Bench", + "question": "Where is the second image\u2019s observer when projected into the first image\u2019s coordinate frame? Provide 2D image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(824, 950), Depth:3.1 meters\nB. Image Coor:(839, 159), Depth:2.5 meters\nC. Image Coor:(39, 843), Depth:2.9 meters\nD. Image Coor:(187, 976), Depth:1.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005067/000.jpg", + "spar_bench/sample_005067/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5068, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate system, where does the observer of the second image appear? Output 2D coordinates in the image plane and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(387, 5), Depth:3.2 meters\nB. Image Coor:(509, 452), Depth:3.3 meters\nC. Image Coor:(683, 21), Depth:2.0 meters\nD. Image Coor:(95, 258), Depth:2.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005068/000.jpg", + "spar_bench/sample_005068/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5069, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image\u2019s space if they captured the second image. Provide image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(239, 903), Depth:1.8 meters\nB. Image Coor:(660, 16), Depth:1.8 meters\nC. Image Coor:(540, 966), Depth:1.1 meters\nD. Image Coor:(342, 94), Depth:1.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005069/000.jpg", + "spar_bench/sample_005069/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5070, + "data_source": "SPAR-Bench", + "question": "Given two viewpoints, determine the position of the observer of the second image as seen in the first image\u2019s coordinate system. Provide image-plane coordinates and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(801, 471), Depth:0.8 meters\nB. Image Coor:(568, 732), Depth:0.5 meters\nC. Image Coor:(745, 86), Depth:0.6 meters\nD. Image Coor:(337, 372), Depth:0.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005070/000.jpg", + "spar_bench/sample_005070/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5071, + "data_source": "SPAR-Bench", + "question": "In the coordinate system of the first image, locate the observer from the second image. Provide 2D image-plane coordinates and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(474, 480), Depth:0.4 meters\nB. Image Coor:(921, 116), Depth:0.3 meters\nC. Image Coor:(605, 880), Depth:0.6 meters\nD. Image Coor:(312, 191), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005071/000.jpg", + "spar_bench/sample_005071/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5072, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s image-plane position and depth in meters in the first image when considering the viewpoint change between the two images. Pick the appropriate option from the choices available.\nA. Image Coor:(425, 971), Depth:0.2 meters\nB. Image Coor:(859, 285), Depth:0.2 meters\nC. Image Coor:(942, 962), Depth:0.2 meters\nD. Image Coor:(538, 68), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005072/000.jpg", + "spar_bench/sample_005072/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5073, + "data_source": "SPAR-Bench", + "question": "From the perspective of the first image, where is the camera from the second image located? Provide image-plane coordinates and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(816, 883), Depth:2.8 meters\nB. Image Coor:(915, 337), Depth:2.5 meters\nC. Image Coor:(285, 241), Depth:2.4 meters\nD. Image Coor:(930, 448), Depth:3.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005073/000.jpg", + "spar_bench/sample_005073/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5074, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image\u2019s space if they captured the second image. Provide image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(523, 394), Depth:0.8 meters\nB. Image Coor:(965, 297), Depth:1.2 meters\nC. Image Coor:(1000, 282), Depth:1.1 meters\nD. Image Coor:(142, 535), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005074/000.jpg", + "spar_bench/sample_005074/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5075, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(346, 737), Depth:0.5 meters\nB. Image Coor:(910, 214), Depth:0.5 meters\nC. Image Coor:(343, 4), Depth:0.5 meters\nD. Image Coor:(896, 60), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005075/000.jpg", + "spar_bench/sample_005075/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5076, + "data_source": "SPAR-Bench", + "question": "Given two images, estimate the 2D image-plane position and depth of the second image\u2019s observer in the first image\u2019s coordinate system. Pick the appropriate option from the choices available.\nA. Image Coor:(664, 643), Depth:1.1 meters\nB. Image Coor:(90, 442), Depth:0.8 meters\nC. Image Coor:(18, 27), Depth:1.6 meters\nD. Image Coor:(514, 341), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005076/000.jpg", + "spar_bench/sample_005076/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5077, + "data_source": "SPAR-Bench", + "question": "Determine where the observer from the second image is located in the coordinate system of the first image. Provide image-plane coordinates and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(83, 566), Depth:0.2 meters\nB. Image Coor:(898, 10), Depth:0.3 meters\nC. Image Coor:(497, 668), Depth:0.3 meters\nD. Image Coor:(863, 391), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005077/000.jpg", + "spar_bench/sample_005077/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5078, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(880, 49), Depth:0.7 meters\nB. Image Coor:(711, 988), Depth:1.4 meters\nC. Image Coor:(120, 622), Depth:0.8 meters\nD. Image Coor:(369, 231), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005078/000.jpg", + "spar_bench/sample_005078/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5079, + "data_source": "SPAR-Bench", + "question": "From the perspective of the first image, where would the observer of the second image appear? Provide image-plane coordinates and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(871, 514), Depth:2.4 meters\nB. Image Coor:(948, 616), Depth:2.4 meters\nC. Image Coor:(47, 860), Depth:2.4 meters\nD. Image Coor:(109, 84), Depth:2.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005079/000.jpg", + "spar_bench/sample_005079/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5080, + "data_source": "SPAR-Bench", + "question": "Identify the observer's position in the second image relative to the first image. Provide (X, Y) in the image plane and depth in meters. Pick the appropriate answer from the options given.\nA. Image Coor:(792, 939), Depth:1.3 meters\nB. Image Coor:(996, 802), Depth:1.3 meters\nC. Image Coor:(955, 252), Depth:1.4 meters\nD. Image Coor:(280, 178), Depth:1.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005080/000.jpg", + "spar_bench/sample_005080/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5081, + "data_source": "SPAR-Bench", + "question": "Where is the observer from the second image positioned in the first image\u2019s coordinate system? Provide the 2D image-plane coordinates and depth in meters. Choose the appropriate answer from the options given.\nA. Image Coor:(539, 694), Depth:0.4 meters\nB. Image Coor:(982, 932), Depth:0.5 meters\nC. Image Coor:(154, 456), Depth:0.5 meters\nD. Image Coor:(931, 169), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005081/000.jpg", + "spar_bench/sample_005081/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5082, + "data_source": "SPAR-Bench", + "question": "Estimate the position of the second image\u2019s observer in the first image\u2019s reference system. Provide image-plane coordinates and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(712, 773), Depth:0.4 meters\nB. Image Coor:(343, 620), Depth:0.4 meters\nC. Image Coor:(237, 267), Depth:0.4 meters\nD. Image Coor:(116, 709), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005082/000.jpg", + "spar_bench/sample_005082/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5083, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s placement in the first image\u2019s space if they captured the second image. Provide 2D image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(349, 201), Depth:2.5 meters\nB. Image Coor:(642, 689), Depth:1.3 meters\nC. Image Coor:(872, 275), Depth:1.8 meters\nD. Image Coor:(383, 50), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005083/000.jpg", + "spar_bench/sample_005083/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5084, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate system, where does the observer of the second image appear? Output 2D coordinates in the image plane and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(144, 13), Depth:0.3 meters\nB. Image Coor:(718, 648), Depth:0.3 meters\nC. Image Coor:(325, 941), Depth:0.3 meters\nD. Image Coor:(218, 67), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005084/000.jpg", + "spar_bench/sample_005084/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5085, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s image-plane position and depth in meters in the first image when considering the viewpoint change between the two images. Choose the correct answer from the choices available.\nA. Image Coor:(564, 797), Depth:2.2 meters\nB. Image Coor:(550, 966), Depth:2.2 meters\nC. Image Coor:(899, 46), Depth:2.2 meters\nD. Image Coor:(252, 319), Depth:2.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005085/000.jpg", + "spar_bench/sample_005085/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5086, + "data_source": "SPAR-Bench", + "question": "Find the corresponding image-plane position and depth (in meters) of the observer of the second image within the first image\u2019s coordinate space. Choose the correct response from the given choices.\nA. Image Coor:(881, 7), Depth:0.5 meters\nB. Image Coor:(878, 924), Depth:0.3 meters\nC. Image Coor:(611, 377), Depth:0.3 meters\nD. Image Coor:(747, 839), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005086/000.jpg", + "spar_bench/sample_005086/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5087, + "data_source": "SPAR-Bench", + "question": "Estimate the position of the second image\u2019s observer in the first image\u2019s reference system. Provide image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(192, 75), Depth:1.2 meters\nB. Image Coor:(142, 863), Depth:1.0 meters\nC. Image Coor:(281, 699), Depth:0.8 meters\nD. Image Coor:(581, 151), Depth:1.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005087/000.jpg", + "spar_bench/sample_005087/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5088, + "data_source": "SPAR-Bench", + "question": "How would the observer of the second image be positioned in the first image\u2019s frame of reference? Provide image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(659, 356), Depth:0.5 meters\nB. Image Coor:(326, 698), Depth:0.6 meters\nC. Image Coor:(500, 790), Depth:0.5 meters\nD. Image Coor:(266, 73), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005088/000.jpg", + "spar_bench/sample_005088/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5089, + "data_source": "SPAR-Bench", + "question": "Project the observer from the second image into the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(780, 774), Depth:0.7 meters\nB. Image Coor:(205, 658), Depth:1.1 meters\nC. Image Coor:(390, 167), Depth:0.9 meters\nD. Image Coor:(40, 718), Depth:0.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005089/000.jpg", + "spar_bench/sample_005089/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5090, + "data_source": "SPAR-Bench", + "question": "If the second image\u2019s observer was positioned in the first image\u2019s space, where would they appear? Provide 2D image-plane coordinates and depth in meters. Pick the appropriate answer from the options given.\nA. Image Coor:(556, 808), Depth:4.4 meters\nB. Image Coor:(435, 85), Depth:4.4 meters\nC. Image Coor:(570, 927), Depth:4.4 meters\nD. Image Coor:(297, 553), Depth:4.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005090/000.jpg", + "spar_bench/sample_005090/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5091, + "data_source": "SPAR-Bench", + "question": "Locate the observer from the second image within the coordinate frame of the first image. Give 2D image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(752, 119), Depth:0.6 meters\nB. Image Coor:(500, 947), Depth:0.9 meters\nC. Image Coor:(388, 41), Depth:0.4 meters\nD. Image Coor:(230, 368), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005091/000.jpg", + "spar_bench/sample_005091/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5092, + "data_source": "SPAR-Bench", + "question": "In the coordinate system of the first image, locate the observer from the second image. Provide 2D image-plane coordinates and depth in meters. Choose the appropriate answer from the options given.\nA. Image Coor:(993, 991), Depth:0.1 meters\nB. Image Coor:(552, 986), Depth:0.1 meters\nC. Image Coor:(552, 452), Depth:0.1 meters\nD. Image Coor:(74, 285), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005092/000.jpg", + "spar_bench/sample_005092/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5093, + "data_source": "SPAR-Bench", + "question": "Given the two images, estimate where the second image\u2019s observer is positioned within the first image\u2019s coordinate frame. Provide image-plane coordinates and depth in meters. Pick the appropriate answer from the options given.\nA. Image Coor:(690, 955), Depth:2.3 meters\nB. Image Coor:(700, 391), Depth:2.3 meters\nC. Image Coor:(186, 587), Depth:2.3 meters\nD. Image Coor:(738, 920), Depth:2.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005093/000.jpg", + "spar_bench/sample_005093/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5094, + "data_source": "SPAR-Bench", + "question": "Find the mapped location of the second image\u2019s observer within the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(783, 184), Depth:0.3 meters\nB. Image Coor:(426, 889), Depth:0.3 meters\nC. Image Coor:(690, 209), Depth:0.3 meters\nD. Image Coor:(476, 485), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005094/000.jpg", + "spar_bench/sample_005094/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5095, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Pick the appropriate answer from the options given.\nA. Image Coor:(421, 419), Depth:0.4 meters\nB. Image Coor:(60, 744), Depth:0.4 meters\nC. Image Coor:(431, 753), Depth:0.4 meters\nD. Image Coor:(921, 636), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005095/000.jpg", + "spar_bench/sample_005095/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5096, + "data_source": "SPAR-Bench", + "question": "Where does the observer of the second image appear in the first image\u2019s coordinate frame? Give 2D image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(315, 66), Depth:0.5 meters\nB. Image Coor:(348, 393), Depth:0.5 meters\nC. Image Coor:(871, 805), Depth:0.5 meters\nD. Image Coor:(293, 857), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005096/000.jpg", + "spar_bench/sample_005096/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5097, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(245, 848), Depth:3.7 meters\nB. Image Coor:(504, 631), Depth:6.9 meters\nC. Image Coor:(617, 506), Depth:6.4 meters\nD. Image Coor:(951, 50), Depth:6.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005097/000.jpg", + "spar_bench/sample_005097/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5098, + "data_source": "SPAR-Bench", + "question": "Find the corresponding image-plane position and depth (in meters) of the observer of the second image within the first image\u2019s coordinate space. Select the correct answer from the given choices.\nA. Image Coor:(139, 199), Depth:0.1 meters\nB. Image Coor:(71, 631), Depth:0.1 meters\nC. Image Coor:(832, 149), Depth:0.1 meters\nD. Image Coor:(670, 480), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005098/000.jpg", + "spar_bench/sample_005098/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5099, + "data_source": "SPAR-Bench", + "question": "Given the two images, estimate the 2D image-plane position and depth (in meters) of the second image\u2019s observer in the first image. Choose the appropriate answer from the options given.\nA. Image Coor:(904, 173), Depth:1.2 meters\nB. Image Coor:(740, 642), Depth:1.4 meters\nC. Image Coor:(643, 757), Depth:1.7 meters\nD. Image Coor:(200, 622), Depth:1.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005099/000.jpg", + "spar_bench/sample_005099/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5100, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(946, 12), Depth:0.4 meters\nB. Image Coor:(487, 542), Depth:0.4 meters\nC. Image Coor:(192, 67), Depth:0.4 meters\nD. Image Coor:(257, 113), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005100/000.jpg", + "spar_bench/sample_005100/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5101, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(920, 55), Depth:0.5 meters\nB. Image Coor:(809, 989), Depth:0.4 meters\nC. Image Coor:(518, 745), Depth:0.5 meters\nD. Image Coor:(870, 612), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005101/000.jpg", + "spar_bench/sample_005101/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5102, + "data_source": "SPAR-Bench", + "question": "From the first image\u2019s perspective, determine the 2D image-plane coordinates and depth in meters of the second image\u2019s observer. Pick the correct option from the choices provided.\nA. Image Coor:(723, 784), Depth:3.3 meters\nB. Image Coor:(918, 10), Depth:3.1 meters\nC. Image Coor:(96, 231), Depth:3.7 meters\nD. Image Coor:(437, 920), Depth:4.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005102/000.jpg", + "spar_bench/sample_005102/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5103, + "data_source": "SPAR-Bench", + "question": "How can the observer\u2019s position in the second image be represented in the first image? Output 2D image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(103, 564), Depth:0.5 meters\nB. Image Coor:(841, 233), Depth:0.5 meters\nC. Image Coor:(79, 854), Depth:0.4 meters\nD. Image Coor:(287, 95), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005103/000.jpg", + "spar_bench/sample_005103/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5104, + "data_source": "SPAR-Bench", + "question": "From the perspective of the first image, where is the camera from the second image located? Provide image-plane coordinates and depth in meters. Select the right response from the available choices.\nA. Image Coor:(520, 76), Depth:1.7 meters\nB. Image Coor:(42, 748), Depth:1.7 meters\nC. Image Coor:(302, 575), Depth:1.7 meters\nD. Image Coor:(884, 741), Depth:1.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005104/000.jpg", + "spar_bench/sample_005104/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5105, + "data_source": "SPAR-Bench", + "question": "Determine the projection of the second image\u2019s observer in the first image\u2019s coordinate system. Provide 2D image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(844, 615), Depth:1.2 meters\nB. Image Coor:(244, 785), Depth:0.9 meters\nC. Image Coor:(610, 245), Depth:1.5 meters\nD. Image Coor:(52, 420), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005105/000.jpg", + "spar_bench/sample_005105/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5106, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s image-plane position and depth in meters in the first image when considering the viewpoint change between the two images. Select the right response from the available choices.\nA. Image Coor:(77, 467), Depth:0.5 meters\nB. Image Coor:(493, 178), Depth:0.5 meters\nC. Image Coor:(792, 51), Depth:0.5 meters\nD. Image Coor:(439, 496), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005106/000.jpg", + "spar_bench/sample_005106/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5107, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s placement in the first image\u2019s space if they captured the second image. Provide 2D image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(226, 888), Depth:1.7 meters\nB. Image Coor:(462, 9), Depth:1.7 meters\nC. Image Coor:(933, 544), Depth:1.7 meters\nD. Image Coor:(601, 897), Depth:1.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005107/000.jpg", + "spar_bench/sample_005107/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5108, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image\u2019s space if they captured the second image. Provide image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(225, 90), Depth:0.9 meters\nB. Image Coor:(542, 457), Depth:0.9 meters\nC. Image Coor:(553, 970), Depth:0.9 meters\nD. Image Coor:(18, 653), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005108/000.jpg", + "spar_bench/sample_005108/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5109, + "data_source": "SPAR-Bench", + "question": "How does the camera\u2019s movement between the two images affect its position in the first image? Provide (X, Y) image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(891, 705), Depth:0.0 meters\nB. Image Coor:(967, 559), Depth:0.0 meters\nC. Image Coor:(693, 267), Depth:0.0 meters\nD. Image Coor:(403, 385), Depth:0.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005109/000.jpg", + "spar_bench/sample_005109/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5110, + "data_source": "SPAR-Bench", + "question": "Where is the observer from the second image positioned in the first image\u2019s coordinate system? Provide the 2D image-plane coordinates and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(581, 555), Depth:0.7 meters\nB. Image Coor:(70, 43), Depth:1.0 meters\nC. Image Coor:(803, 34), Depth:0.5 meters\nD. Image Coor:(145, 57), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005110/000.jpg", + "spar_bench/sample_005110/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5111, + "data_source": "SPAR-Bench", + "question": "Estimate where the second image\u2019s observer would appear when projected onto the first image\u2019s coordinate space. Provide image-plane coordinates and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(355, 307), Depth:0.6 meters\nB. Image Coor:(811, 515), Depth:0.5 meters\nC. Image Coor:(234, 332), Depth:0.4 meters\nD. Image Coor:(951, 941), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005111/000.jpg", + "spar_bench/sample_005111/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5112, + "data_source": "SPAR-Bench", + "question": "Project the observer from the second image into the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(927, 891), Depth:0.3 meters\nB. Image Coor:(344, 731), Depth:0.3 meters\nC. Image Coor:(608, 250), Depth:0.6 meters\nD. Image Coor:(189, 994), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005112/000.jpg", + "spar_bench/sample_005112/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5113, + "data_source": "SPAR-Bench", + "question": "Estimate the position of the second image\u2019s observer in the first image\u2019s reference system. Provide image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(241, 999), Depth:0.7 meters\nB. Image Coor:(559, 833), Depth:0.7 meters\nC. Image Coor:(170, 998), Depth:0.7 meters\nD. Image Coor:(870, 43), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005113/000.jpg", + "spar_bench/sample_005113/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5114, + "data_source": "SPAR-Bench", + "question": "Identify the corresponding 2D image-plane location and depth (in meters) of the observer from the second image in the first image\u2019s coordinate frame. Select the right response from the available choices.\nA. Image Coor:(973, 591), Depth:2.8 meters\nB. Image Coor:(369, 904), Depth:2.8 meters\nC. Image Coor:(564, 994), Depth:2.8 meters\nD. Image Coor:(551, 6), Depth:2.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005114/000.jpg", + "spar_bench/sample_005114/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5115, + "data_source": "SPAR-Bench", + "question": "Estimate the position of the second image\u2019s observer in the first image\u2019s reference system. Provide image-plane coordinates and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(579, 685), Depth:0.7 meters\nB. Image Coor:(922, 885), Depth:0.9 meters\nC. Image Coor:(283, 824), Depth:0.6 meters\nD. Image Coor:(300, 308), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005115/000.jpg", + "spar_bench/sample_005115/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5116, + "data_source": "SPAR-Bench", + "question": "Given two images, estimate the 2D image-plane position and depth of the second image\u2019s observer in the first image\u2019s coordinate system. Select the correct response from the given choices.\nA. Image Coor:(906, 345), Depth:0.4 meters\nB. Image Coor:(94, 652), Depth:0.4 meters\nC. Image Coor:(496, 380), Depth:0.7 meters\nD. Image Coor:(182, 311), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005116/000.jpg", + "spar_bench/sample_005116/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5117, + "data_source": "SPAR-Bench", + "question": "What is the 2D image-plane position and depth of the second image\u2019s observer when mapped into the first image? Depth should be given in meters. Select the right response from the available choices.\nA. Image Coor:(913, 824), Depth:1.5 meters\nB. Image Coor:(732, 932), Depth:1.5 meters\nC. Image Coor:(647, 105), Depth:1.5 meters\nD. Image Coor:(208, 274), Depth:1.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005117/000.jpg", + "spar_bench/sample_005117/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5118, + "data_source": "SPAR-Bench", + "question": "Given two images, estimate the 2D image-plane position and depth of the second image\u2019s observer in the first image\u2019s coordinate system. Select the appropriate response from the given choices.\nA. Image Coor:(79, 250), Depth:0.9 meters\nB. Image Coor:(692, 329), Depth:0.9 meters\nC. Image Coor:(70, 790), Depth:0.9 meters\nD. Image Coor:(422, 935), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005118/000.jpg", + "spar_bench/sample_005118/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5119, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(77, 722), Depth:0.3 meters\nB. Image Coor:(460, 530), Depth:0.2 meters\nC. Image Coor:(14, 296), Depth:0.2 meters\nD. Image Coor:(695, 719), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005119/000.jpg", + "spar_bench/sample_005119/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5120, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image\u2019s space if they captured the second image. Provide image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(370, 98), Depth:1.3 meters\nB. Image Coor:(484, 796), Depth:1.2 meters\nC. Image Coor:(104, 506), Depth:1.0 meters\nD. Image Coor:(197, 357), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005120/000.jpg", + "spar_bench/sample_005120/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5121, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the observer of the second image within the first image\u2019s coordinate frame? Provide (X, Y) in the image plane and depth in meters. Choose the appropriate answer from the options given.\nA. Image Coor:(563, 106), Depth:0.5 meters\nB. Image Coor:(576, 932), Depth:0.5 meters\nC. Image Coor:(20, 986), Depth:0.6 meters\nD. Image Coor:(324, 553), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005121/000.jpg", + "spar_bench/sample_005121/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5122, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(852, 440), Depth:0.3 meters\nB. Image Coor:(729, 987), Depth:0.2 meters\nC. Image Coor:(128, 316), Depth:0.3 meters\nD. Image Coor:(893, 216), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005122/000.jpg", + "spar_bench/sample_005122/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5123, + "data_source": "SPAR-Bench", + "question": "Where is the second image\u2019s observer when projected into the first image\u2019s coordinate frame? Provide 2D image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(554, 250), Depth:3.3 meters\nB. Image Coor:(185, 18), Depth:4.4 meters\nC. Image Coor:(845, 720), Depth:4.8 meters\nD. Image Coor:(814, 670), Depth:5.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005123/000.jpg", + "spar_bench/sample_005123/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5124, + "data_source": "SPAR-Bench", + "question": "Estimate the position of the second image\u2019s observer in the first image\u2019s reference system. Provide image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(934, 145), Depth:1.6 meters\nB. Image Coor:(494, 260), Depth:1.6 meters\nC. Image Coor:(279, 159), Depth:1.6 meters\nD. Image Coor:(627, 722), Depth:1.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005124/000.jpg", + "spar_bench/sample_005124/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5125, + "data_source": "SPAR-Bench", + "question": "From the perspective of the first image, where is the camera from the second image located? Provide image-plane coordinates and depth in meters. Pick the appropriate answer from the options given.\nA. Image Coor:(589, 980), Depth:0.9 meters\nB. Image Coor:(410, 245), Depth:0.9 meters\nC. Image Coor:(677, 644), Depth:0.9 meters\nD. Image Coor:(852, 235), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005125/000.jpg", + "spar_bench/sample_005125/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5126, + "data_source": "SPAR-Bench", + "question": "Given two viewpoints, determine the position of the observer of the second image as seen in the first image\u2019s coordinate system. Provide image-plane coordinates and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(185, 898), Depth:0.1 meters\nB. Image Coor:(562, 419), Depth:0.1 meters\nC. Image Coor:(39, 321), Depth:0.1 meters\nD. Image Coor:(786, 898), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005126/000.jpg", + "spar_bench/sample_005126/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5127, + "data_source": "SPAR-Bench", + "question": "Estimate the position of the second image\u2019s observer in the first image\u2019s reference system. Provide image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(131, 215), Depth:2.4 meters\nB. Image Coor:(911, 644), Depth:1.5 meters\nC. Image Coor:(649, 196), Depth:1.3 meters\nD. Image Coor:(368, 536), Depth:1.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005127/000.jpg", + "spar_bench/sample_005127/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5128, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(908, 941), Depth:0.2 meters\nB. Image Coor:(415, 966), Depth:0.3 meters\nC. Image Coor:(291, 605), Depth:0.3 meters\nD. Image Coor:(478, 143), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005128/000.jpg", + "spar_bench/sample_005128/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5129, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(644, 942), Depth:2.5 meters\nB. Image Coor:(116, 772), Depth:2.1 meters\nC. Image Coor:(623, 53), Depth:2.1 meters\nD. Image Coor:(241, 899), Depth:2.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005129/000.jpg", + "spar_bench/sample_005129/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5130, + "data_source": "SPAR-Bench", + "question": "Where does the observer of the second image appear in the first image\u2019s coordinate frame? Give 2D image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(895, 311), Depth:0.5 meters\nB. Image Coor:(711, 252), Depth:0.5 meters\nC. Image Coor:(241, 547), Depth:0.5 meters\nD. Image Coor:(230, 79), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005130/000.jpg", + "spar_bench/sample_005130/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5131, + "data_source": "SPAR-Bench", + "question": "In the coordinate system of the first image, locate the observer from the second image. Provide 2D image-plane coordinates and depth in meters. Choose the appropriate answer from the options given.\nA. Image Coor:(944, 357), Depth:0.1 meters\nB. Image Coor:(712, 680), Depth:0.1 meters\nC. Image Coor:(752, 512), Depth:0.1 meters\nD. Image Coor:(372, 368), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005131/000.jpg", + "spar_bench/sample_005131/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5132, + "data_source": "SPAR-Bench", + "question": "Find the corresponding image-plane position and depth (in meters) of the observer of the second image within the first image\u2019s coordinate space. Choose the correct response from the given choices.\nA. Image Coor:(731, 194), Depth:0.3 meters\nB. Image Coor:(944, 425), Depth:0.3 meters\nC. Image Coor:(166, 292), Depth:0.3 meters\nD. Image Coor:(36, 763), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005132/000.jpg", + "spar_bench/sample_005132/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5133, + "data_source": "SPAR-Bench", + "question": "Given the two images, estimate where the second image\u2019s observer is positioned within the first image\u2019s coordinate frame. Provide image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(201, 787), Depth:1.4 meters\nB. Image Coor:(39, 422), Depth:1.4 meters\nC. Image Coor:(633, 304), Depth:1.4 meters\nD. Image Coor:(861, 114), Depth:1.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005133/000.jpg", + "spar_bench/sample_005133/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5134, + "data_source": "SPAR-Bench", + "question": "Estimate where the second image\u2019s observer would appear when projected onto the first image\u2019s coordinate space. Provide image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(379, 345), Depth:3.5 meters\nB. Image Coor:(104, 183), Depth:1.7 meters\nC. Image Coor:(787, 4), Depth:3.1 meters\nD. Image Coor:(729, 964), Depth:3.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005134/000.jpg", + "spar_bench/sample_005134/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5135, + "data_source": "SPAR-Bench", + "question": "Identify the corresponding 2D image-plane location and depth (in meters) of the observer from the second image in the first image\u2019s coordinate frame. Select the correct answer from the given choices.\nA. Image Coor:(36, 834), Depth:2.3 meters\nB. Image Coor:(748, 5), Depth:2.3 meters\nC. Image Coor:(847, 893), Depth:2.3 meters\nD. Image Coor:(178, 734), Depth:2.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005135/000.jpg", + "spar_bench/sample_005135/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5136, + "data_source": "SPAR-Bench", + "question": "Given the two images, estimate where the second image\u2019s observer is positioned within the first image\u2019s coordinate frame. Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(838, 948), Depth:1.2 meters\nB. Image Coor:(43, 519), Depth:1.0 meters\nC. Image Coor:(346, 78), Depth:0.8 meters\nD. Image Coor:(70, 478), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005136/000.jpg", + "spar_bench/sample_005136/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5137, + "data_source": "SPAR-Bench", + "question": "How does the observer of the second image map onto the first image? Provide 2D image-plane coordinates and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(343, 686), Depth:0.7 meters\nB. Image Coor:(413, 107), Depth:0.7 meters\nC. Image Coor:(514, 968), Depth:0.7 meters\nD. Image Coor:(17, 200), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005137/000.jpg", + "spar_bench/sample_005137/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5138, + "data_source": "SPAR-Bench", + "question": "Find the corresponding image-plane position and depth (in meters) of the observer of the second image within the first image\u2019s coordinate space. Pick the appropriate option from the choices available.\nA. Image Coor:(578, 137), Depth:0.3 meters\nB. Image Coor:(707, 853), Depth:0.4 meters\nC. Image Coor:(277, 680), Depth:0.6 meters\nD. Image Coor:(160, 243), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005138/000.jpg", + "spar_bench/sample_005138/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5139, + "data_source": "SPAR-Bench", + "question": "How does the position of the observer of the second image translate into the first image\u2019s coordinate system? Provide (X, Y) in the image plane and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(934, 893), Depth:0.1 meters\nB. Image Coor:(213, 673), Depth:0.1 meters\nC. Image Coor:(152, 346), Depth:0.1 meters\nD. Image Coor:(619, 403), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005139/000.jpg", + "spar_bench/sample_005139/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5140, + "data_source": "SPAR-Bench", + "question": "How does the observer of the second image map onto the first image? Provide 2D image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(831, 414), Depth:1.1 meters\nB. Image Coor:(799, 126), Depth:1.1 meters\nC. Image Coor:(316, 800), Depth:1.1 meters\nD. Image Coor:(750, 330), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005140/000.jpg", + "spar_bench/sample_005140/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5141, + "data_source": "SPAR-Bench", + "question": "How does the position of the observer of the second image translate into the first image\u2019s coordinate system? Provide (X, Y) in the image plane and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(38, 68), Depth:1.0 meters\nB. Image Coor:(572, 308), Depth:0.9 meters\nC. Image Coor:(932, 207), Depth:1.3 meters\nD. Image Coor:(66, 152), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005141/000.jpg", + "spar_bench/sample_005141/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5142, + "data_source": "SPAR-Bench", + "question": "How does the observer of the second image map onto the first image? Provide 2D image-plane coordinates and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(72, 459), Depth:0.9 meters\nB. Image Coor:(875, 94), Depth:0.9 meters\nC. Image Coor:(719, 151), Depth:0.9 meters\nD. Image Coor:(340, 608), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005142/000.jpg", + "spar_bench/sample_005142/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5143, + "data_source": "SPAR-Bench", + "question": "Where is the second image\u2019s observer when projected into the first image\u2019s coordinate frame? Provide 2D image-plane coordinates and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(861, 57), Depth:0.4 meters\nB. Image Coor:(664, 652), Depth:0.4 meters\nC. Image Coor:(455, 404), Depth:0.4 meters\nD. Image Coor:(40, 150), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005143/000.jpg", + "spar_bench/sample_005143/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5144, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(91, 760), Depth:0.3 meters\nB. Image Coor:(264, 359), Depth:0.6 meters\nC. Image Coor:(728, 759), Depth:0.3 meters\nD. Image Coor:(609, 437), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005144/000.jpg", + "spar_bench/sample_005144/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5145, + "data_source": "SPAR-Bench", + "question": "If the second image is taken from a new viewpoint, what is its camera\u2019s location in the first image? Answer with 2D image-plane coordinates and depth in meters. Choose the correct option from the available choices.\nA. Image Coor:(445, 574), Depth:0.4 meters\nB. Image Coor:(561, 86), Depth:0.6 meters\nC. Image Coor:(810, 674), Depth:0.4 meters\nD. Image Coor:(199, 370), Depth:0.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005145/000.jpg", + "spar_bench/sample_005145/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5146, + "data_source": "SPAR-Bench", + "question": "How does the camera\u2019s movement between the two images affect its position in the first image? Provide (X, Y) image-plane coordinates and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(796, 584), Depth:0.2 meters\nB. Image Coor:(469, 281), Depth:0.2 meters\nC. Image Coor:(771, 618), Depth:0.3 meters\nD. Image Coor:(143, 888), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005146/000.jpg", + "spar_bench/sample_005146/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5147, + "data_source": "SPAR-Bench", + "question": "Where is the observer from the second image when mapped onto the first image\u2019s coordinate system? Provide image-plane coordinates and depth in meters. Select the right response from the available choices.\nA. Image Coor:(988, 276), Depth:0.3 meters\nB. Image Coor:(586, 137), Depth:0.3 meters\nC. Image Coor:(771, 862), Depth:0.3 meters\nD. Image Coor:(180, 79), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005147/000.jpg", + "spar_bench/sample_005147/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5148, + "data_source": "SPAR-Bench", + "question": "Given the two images, estimate where the second image\u2019s observer is positioned within the first image\u2019s coordinate frame. Provide image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(922, 250), Depth:1.8 meters\nB. Image Coor:(69, 364), Depth:1.2 meters\nC. Image Coor:(401, 131), Depth:1.9 meters\nD. Image Coor:(941, 668), Depth:1.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005148/000.jpg", + "spar_bench/sample_005148/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5149, + "data_source": "SPAR-Bench", + "question": "What is the 2D image-plane position and depth of the second image\u2019s observer when mapped into the first image? Depth should be given in meters. Select the appropriate response from the given choices.\nA. Image Coor:(597, 121), Depth:1.4 meters\nB. Image Coor:(124, 457), Depth:1.3 meters\nC. Image Coor:(502, 522), Depth:1.8 meters\nD. Image Coor:(35, 686), Depth:1.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005149/000.jpg", + "spar_bench/sample_005149/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5150, + "data_source": "SPAR-Bench", + "question": "Where is the second image\u2019s observer when projected into the first image\u2019s coordinate frame? Provide 2D image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(592, 693), Depth:0.8 meters\nB. Image Coor:(901, 374), Depth:0.7 meters\nC. Image Coor:(452, 454), Depth:0.8 meters\nD. Image Coor:(201, 70), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005150/000.jpg", + "spar_bench/sample_005150/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5151, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image\u2019s space if they captured the second image. Provide image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(95, 419), Depth:0.6 meters\nB. Image Coor:(677, 301), Depth:0.6 meters\nC. Image Coor:(582, 651), Depth:0.6 meters\nD. Image Coor:(908, 775), Depth:0.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005151/000.jpg", + "spar_bench/sample_005151/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5152, + "data_source": "SPAR-Bench", + "question": "How does the observer of the second image map onto the first image? Provide 2D image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(685, 429), Depth:3.9 meters\nB. Image Coor:(819, 349), Depth:3.9 meters\nC. Image Coor:(510, 60), Depth:3.9 meters\nD. Image Coor:(202, 742), Depth:3.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005152/000.jpg", + "spar_bench/sample_005152/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5153, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the observer of the second image within the first image\u2019s coordinate frame? Provide (X, Y) in the image plane and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(873, 40), Depth:1.0 meters\nB. Image Coor:(419, 993), Depth:1.0 meters\nC. Image Coor:(15, 166), Depth:1.0 meters\nD. Image Coor:(643, 390), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005153/000.jpg", + "spar_bench/sample_005153/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5154, + "data_source": "SPAR-Bench", + "question": "Determine the 2D image-plane location and depth (in meters) of the second image\u2019s observer in the first image. Pick the right response from the available choices.\nA. Image Coor:(440, 73), Depth:1.0 meters\nB. Image Coor:(672, 456), Depth:0.7 meters\nC. Image Coor:(691, 887), Depth:0.4 meters\nD. Image Coor:(774, 127), Depth:0.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005154/000.jpg", + "spar_bench/sample_005154/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5155, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(395, 580), Depth:0.3 meters\nB. Image Coor:(156, 291), Depth:0.3 meters\nC. Image Coor:(689, 404), Depth:0.3 meters\nD. Image Coor:(418, 828), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005155/000.jpg", + "spar_bench/sample_005155/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5156, + "data_source": "SPAR-Bench", + "question": "Where does the observer of the second image appear in the first image\u2019s coordinate frame? Give 2D image-plane coordinates and depth in meters. Choose the correct answer from the choices available.\nA. Image Coor:(737, 304), Depth:0.4 meters\nB. Image Coor:(911, 37), Depth:1.0 meters\nC. Image Coor:(538, 62), Depth:0.8 meters\nD. Image Coor:(36, 437), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005156/000.jpg", + "spar_bench/sample_005156/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5157, + "data_source": "SPAR-Bench", + "question": "Where is the observer from the second image when mapped onto the first image\u2019s coordinate system? Provide image-plane coordinates and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(13, 333), Depth:0.8 meters\nB. Image Coor:(532, 210), Depth:0.8 meters\nC. Image Coor:(658, 498), Depth:0.8 meters\nD. Image Coor:(816, 3), Depth:0.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005157/000.jpg", + "spar_bench/sample_005157/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5158, + "data_source": "SPAR-Bench", + "question": "If the second image\u2019s observer was positioned in the first image\u2019s space, where would they appear? Provide 2D image-plane coordinates and depth in meters. Pick the appropriate answer from the options given.\nA. Image Coor:(476, 989), Depth:0.4 meters\nB. Image Coor:(595, 397), Depth:0.4 meters\nC. Image Coor:(348, 925), Depth:0.4 meters\nD. Image Coor:(330, 13), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005158/000.jpg", + "spar_bench/sample_005158/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5159, + "data_source": "SPAR-Bench", + "question": "Where is the observer from the second image positioned in the first image\u2019s coordinate system? Provide the 2D image-plane coordinates and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(560, 590), Depth:1.0 meters\nB. Image Coor:(483, 107), Depth:1.0 meters\nC. Image Coor:(951, 252), Depth:1.0 meters\nD. Image Coor:(689, 529), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005159/000.jpg", + "spar_bench/sample_005159/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5160, + "data_source": "SPAR-Bench", + "question": "Given two viewpoints, determine the position of the observer of the second image as seen in the first image\u2019s coordinate system. Provide image-plane coordinates and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(806, 605), Depth:0.3 meters\nB. Image Coor:(552, 309), Depth:0.3 meters\nC. Image Coor:(162, 133), Depth:0.3 meters\nD. Image Coor:(575, 167), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005160/000.jpg", + "spar_bench/sample_005160/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5161, + "data_source": "SPAR-Bench", + "question": "From the perspective of the first image, where would the observer of the second image appear? Provide image-plane coordinates and depth in meters. Select the appropriate response from the given choices.\nA. Image Coor:(143, 825), Depth:0.2 meters\nB. Image Coor:(713, 923), Depth:0.2 meters\nC. Image Coor:(821, 11), Depth:0.2 meters\nD. Image Coor:(542, 648), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005161/000.jpg", + "spar_bench/sample_005161/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5162, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s spatial reference, where does the observer of the second image appear? Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(813, 534), Depth:0.1 meters\nB. Image Coor:(72, 326), Depth:0.1 meters\nC. Image Coor:(69, 620), Depth:0.1 meters\nD. Image Coor:(701, 947), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005162/000.jpg", + "spar_bench/sample_005162/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5163, + "data_source": "SPAR-Bench", + "question": "Given two viewpoints, determine the position of the observer of the second image as seen in the first image\u2019s coordinate system. Provide image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(626, 447), Depth:1.5 meters\nB. Image Coor:(507, 47), Depth:1.5 meters\nC. Image Coor:(46, 537), Depth:1.5 meters\nD. Image Coor:(143, 915), Depth:1.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005163/000.jpg", + "spar_bench/sample_005163/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5164, + "data_source": "SPAR-Bench", + "question": "How would the observer of the second image be positioned in the first image\u2019s frame of reference? Provide image-plane coordinates and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(440, 898), Depth:1.0 meters\nB. Image Coor:(217, 940), Depth:1.4 meters\nC. Image Coor:(279, 683), Depth:1.1 meters\nD. Image Coor:(806, 16), Depth:1.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005164/000.jpg", + "spar_bench/sample_005164/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5165, + "data_source": "SPAR-Bench", + "question": "How can the observer\u2019s position in the second image be represented in the first image? Output 2D image-plane coordinates and depth in meters. Choose the correct answer from the choices available.\nA. Image Coor:(723, 575), Depth:1.5 meters\nB. Image Coor:(815, 17), Depth:2.3 meters\nC. Image Coor:(93, 17), Depth:2.9 meters\nD. Image Coor:(786, 789), Depth:1.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005165/000.jpg", + "spar_bench/sample_005165/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5166, + "data_source": "SPAR-Bench", + "question": "Find the corresponding image-plane position and depth (in meters) of the observer of the second image within the first image\u2019s coordinate space. Pick the appropriate option from the choices available.\nA. Image Coor:(369, 233), Depth:3.1 meters\nB. Image Coor:(69, 997), Depth:3.1 meters\nC. Image Coor:(943, 519), Depth:3.1 meters\nD. Image Coor:(506, 599), Depth:3.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005166/000.jpg", + "spar_bench/sample_005166/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5167, + "data_source": "SPAR-Bench", + "question": "Where does the observer of the second image appear in the first image\u2019s coordinate frame? Give 2D image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(812, 348), Depth:2.2 meters\nB. Image Coor:(319, 136), Depth:2.2 meters\nC. Image Coor:(247, 245), Depth:2.2 meters\nD. Image Coor:(9, 516), Depth:2.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005167/000.jpg", + "spar_bench/sample_005167/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5168, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate system, where does the observer of the second image appear? Output 2D coordinates in the image plane and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(545, 735), Depth:2.4 meters\nB. Image Coor:(162, 975), Depth:2.3 meters\nC. Image Coor:(593, 105), Depth:2.2 meters\nD. Image Coor:(963, 528), Depth:3.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005168/000.jpg", + "spar_bench/sample_005168/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5169, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(70, 324), Depth:0.1 meters\nB. Image Coor:(447, 685), Depth:0.1 meters\nC. Image Coor:(825, 449), Depth:0.1 meters\nD. Image Coor:(171, 123), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005169/000.jpg", + "spar_bench/sample_005169/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5170, + "data_source": "SPAR-Bench", + "question": "Based on the given images, determine where the second image\u2019s observer is located in the first image. Provide image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(890, 606), Depth:0.2 meters\nB. Image Coor:(641, 849), Depth:0.2 meters\nC. Image Coor:(883, 509), Depth:0.2 meters\nD. Image Coor:(222, 666), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005170/000.jpg", + "spar_bench/sample_005170/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5171, + "data_source": "SPAR-Bench", + "question": "Determine the (X, Y) position in the image plane and depth in meters of the second image\u2019s observer within the first image\u2019s coordinate frame. Pick the appropriate answer from the options given.\nA. Image Coor:(796, 616), Depth:0.3 meters\nB. Image Coor:(780, 982), Depth:0.1 meters\nC. Image Coor:(7, 976), Depth:0.2 meters\nD. Image Coor:(151, 233), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005171/000.jpg", + "spar_bench/sample_005171/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5172, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(362, 878), Depth:1.4 meters\nB. Image Coor:(429, 28), Depth:0.8 meters\nC. Image Coor:(911, 4), Depth:1.3 meters\nD. Image Coor:(373, 571), Depth:1.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005172/000.jpg", + "spar_bench/sample_005172/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5173, + "data_source": "SPAR-Bench", + "question": "What are the image-plane coordinates and depth in meters for the observer of the second image in the first image\u2019s reference frame? Select the appropriate option from the given choices.\nA. Image Coor:(451, 494), Depth:0.5 meters\nB. Image Coor:(938, 699), Depth:0.8 meters\nC. Image Coor:(182, 591), Depth:0.5 meters\nD. Image Coor:(862, 17), Depth:0.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005173/000.jpg", + "spar_bench/sample_005173/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5174, + "data_source": "SPAR-Bench", + "question": "If the second image\u2019s observer was positioned in the first image\u2019s space, where would they appear? Provide 2D image-plane coordinates and depth in meters. Select the appropriate response from the given choices.\nA. Image Coor:(789, 929), Depth:0.4 meters\nB. Image Coor:(247, 435), Depth:0.3 meters\nC. Image Coor:(508, 590), Depth:0.3 meters\nD. Image Coor:(683, 176), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005174/000.jpg", + "spar_bench/sample_005174/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5175, + "data_source": "SPAR-Bench", + "question": "What are the projected 2D image-plane coordinates and depth (in meters) of the second image\u2019s observer in the first image\u2019s coordinate space? Choose the correct option from the available choices.\nA. Image Coor:(924, 526), Depth:0.1 meters\nB. Image Coor:(431, 831), Depth:0.1 meters\nC. Image Coor:(753, 229), Depth:0.1 meters\nD. Image Coor:(35, 455), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005175/000.jpg", + "spar_bench/sample_005175/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5176, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate system, where does the observer of the second image appear? Output 2D coordinates in the image plane and depth in meters. Pick the appropriate answer from the options given.\nA. Image Coor:(553, 445), Depth:0.5 meters\nB. Image Coor:(28, 24), Depth:0.5 meters\nC. Image Coor:(825, 402), Depth:0.5 meters\nD. Image Coor:(910, 57), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005176/000.jpg", + "spar_bench/sample_005176/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5177, + "data_source": "SPAR-Bench", + "question": "Where is the observer from the second image when mapped onto the first image\u2019s coordinate system? Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(186, 676), Depth:0.3 meters\nB. Image Coor:(116, 560), Depth:0.3 meters\nC. Image Coor:(607, 128), Depth:0.3 meters\nD. Image Coor:(151, 620), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005177/000.jpg", + "spar_bench/sample_005177/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5178, + "data_source": "SPAR-Bench", + "question": "Determine the (X, Y) position in the image plane and depth in meters of the second image\u2019s observer within the first image\u2019s coordinate frame. Select the correct answer from the given choices.\nA. Image Coor:(4, 138), Depth:0.3 meters\nB. Image Coor:(454, 390), Depth:0.4 meters\nC. Image Coor:(370, 741), Depth:0.4 meters\nD. Image Coor:(715, 720), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005178/000.jpg", + "spar_bench/sample_005178/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5179, + "data_source": "SPAR-Bench", + "question": "How does the camera\u2019s movement between the two images affect its position in the first image? Provide (X, Y) image-plane coordinates and depth in meters. Select the appropriate response from the given choices.\nA. Image Coor:(176, 352), Depth:0.1 meters\nB. Image Coor:(686, 324), Depth:0.1 meters\nC. Image Coor:(669, 274), Depth:0.1 meters\nD. Image Coor:(288, 724), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005179/000.jpg", + "spar_bench/sample_005179/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5180, + "data_source": "SPAR-Bench", + "question": "Given two images, estimate the 2D image-plane position and depth of the second image\u2019s observer in the first image\u2019s coordinate system. Pick the appropriate option from the choices provided.\nA. Image Coor:(736, 106), Depth:3.1 meters\nB. Image Coor:(136, 723), Depth:2.3 meters\nC. Image Coor:(586, 548), Depth:3.1 meters\nD. Image Coor:(398, 440), Depth:3.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005180/000.jpg", + "spar_bench/sample_005180/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5181, + "data_source": "SPAR-Bench", + "question": "Determine the (X, Y) position in the image plane and depth in meters of the second image\u2019s observer within the first image\u2019s coordinate frame. Pick the appropriate answer from the options given.\nA. Image Coor:(467, 494), Depth:0.3 meters\nB. Image Coor:(429, 44), Depth:0.2 meters\nC. Image Coor:(3, 110), Depth:0.2 meters\nD. Image Coor:(74, 981), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005181/000.jpg", + "spar_bench/sample_005181/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5182, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s placement in the first image\u2019s space if they captured the second image. Provide 2D image-plane coordinates and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(466, 643), Depth:1.6 meters\nB. Image Coor:(168, 720), Depth:2.4 meters\nC. Image Coor:(812, 101), Depth:2.3 meters\nD. Image Coor:(5, 33), Depth:2.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005182/000.jpg", + "spar_bench/sample_005182/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5183, + "data_source": "SPAR-Bench", + "question": "Identify the corresponding 2D image-plane location and depth (in meters) of the observer from the second image in the first image\u2019s coordinate frame. Choose the correct answer from the choices available.\nA. Image Coor:(386, 142), Depth:0.7 meters\nB. Image Coor:(170, 129), Depth:0.5 meters\nC. Image Coor:(499, 374), Depth:0.4 meters\nD. Image Coor:(824, 77), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005183/000.jpg", + "spar_bench/sample_005183/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5184, + "data_source": "SPAR-Bench", + "question": "Find the mapped location of the second image\u2019s observer within the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(485, 943), Depth:1.0 meters\nB. Image Coor:(479, 218), Depth:1.0 meters\nC. Image Coor:(794, 999), Depth:1.0 meters\nD. Image Coor:(952, 866), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005184/000.jpg", + "spar_bench/sample_005184/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5185, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Select the appropriate response from the given choices.\nA. Image Coor:(707, 791), Depth:0.4 meters\nB. Image Coor:(601, 287), Depth:0.4 meters\nC. Image Coor:(587, 103), Depth:0.4 meters\nD. Image Coor:(72, 863), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005185/000.jpg", + "spar_bench/sample_005185/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5186, + "data_source": "SPAR-Bench", + "question": "If the second image\u2019s observer was positioned in the first image\u2019s space, where would they appear? Provide 2D image-plane coordinates and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(758, 770), Depth:3.0 meters\nB. Image Coor:(443, 38), Depth:3.0 meters\nC. Image Coor:(143, 774), Depth:3.0 meters\nD. Image Coor:(613, 757), Depth:3.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005186/000.jpg", + "spar_bench/sample_005186/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5187, + "data_source": "SPAR-Bench", + "question": "Where would the second image\u2019s observer appear in the first image? Answer with image-plane coordinates (X, Y) and depth in meters. Select the appropriate response from the given choices.\nA. Image Coor:(109, 940), Depth:0.5 meters\nB. Image Coor:(297, 1000), Depth:0.5 meters\nC. Image Coor:(553, 366), Depth:0.5 meters\nD. Image Coor:(752, 963), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005187/000.jpg", + "spar_bench/sample_005187/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5188, + "data_source": "SPAR-Bench", + "question": "If the second image\u2019s observer was positioned in the first image\u2019s space, where would they appear? Provide 2D image-plane coordinates and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(67, 657), Depth:0.7 meters\nB. Image Coor:(557, 558), Depth:1.0 meters\nC. Image Coor:(752, 598), Depth:0.7 meters\nD. Image Coor:(991, 335), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005188/000.jpg", + "spar_bench/sample_005188/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5189, + "data_source": "SPAR-Bench", + "question": "Estimate the position of the second image\u2019s observer in the first image\u2019s reference system. Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(663, 187), Depth:0.3 meters\nB. Image Coor:(490, 907), Depth:0.3 meters\nC. Image Coor:(180, 304), Depth:0.4 meters\nD. Image Coor:(573, 579), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005189/000.jpg", + "spar_bench/sample_005189/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5190, + "data_source": "SPAR-Bench", + "question": "In the coordinate system of the first image, locate the observer from the second image. Provide 2D image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(806, 854), Depth:1.4 meters\nB. Image Coor:(676, 703), Depth:1.6 meters\nC. Image Coor:(742, 383), Depth:1.2 meters\nD. Image Coor:(369, 411), Depth:1.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005190/000.jpg", + "spar_bench/sample_005190/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5191, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(740, 321), Depth:1.3 meters\nB. Image Coor:(383, 989), Depth:1.5 meters\nC. Image Coor:(414, 460), Depth:1.1 meters\nD. Image Coor:(691, 155), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005191/000.jpg", + "spar_bench/sample_005191/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5192, + "data_source": "SPAR-Bench", + "question": "How does the position of the observer of the second image translate into the first image\u2019s coordinate system? Provide (X, Y) in the image plane and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(719, 780), Depth:0.7 meters\nB. Image Coor:(717, 515), Depth:0.7 meters\nC. Image Coor:(141, 564), Depth:0.4 meters\nD. Image Coor:(807, 36), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005192/000.jpg", + "spar_bench/sample_005192/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5193, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(15, 25), Depth:0.9 meters\nB. Image Coor:(59, 649), Depth:0.9 meters\nC. Image Coor:(518, 106), Depth:0.9 meters\nD. Image Coor:(292, 967), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005193/000.jpg", + "spar_bench/sample_005193/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5194, + "data_source": "SPAR-Bench", + "question": "Where would the second image\u2019s observer be seen in the first image\u2019s space? Provide 2D image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(988, 374), Depth:0.6 meters\nB. Image Coor:(106, 493), Depth:1.1 meters\nC. Image Coor:(614, 773), Depth:0.8 meters\nD. Image Coor:(627, 543), Depth:1.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005194/000.jpg", + "spar_bench/sample_005194/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5195, + "data_source": "SPAR-Bench", + "question": "Based on the given images, determine where the second image\u2019s observer is located in the first image. Provide image-plane coordinates and depth in meters. Choose the correct answer from the choices available.\nA. Image Coor:(575, 70), Depth:0.6 meters\nB. Image Coor:(576, 600), Depth:0.3 meters\nC. Image Coor:(356, 981), Depth:0.3 meters\nD. Image Coor:(846, 345), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005195/000.jpg", + "spar_bench/sample_005195/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5196, + "data_source": "SPAR-Bench", + "question": "How would the observer of the second image be positioned in the first image\u2019s frame of reference? Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(72, 400), Depth:0.4 meters\nB. Image Coor:(658, 266), Depth:0.3 meters\nC. Image Coor:(54, 752), Depth:0.3 meters\nD. Image Coor:(401, 125), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005196/000.jpg", + "spar_bench/sample_005196/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5197, + "data_source": "SPAR-Bench", + "question": "How does the observer of the second image map onto the first image? Provide 2D image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(859, 211), Depth:1.3 meters\nB. Image Coor:(845, 458), Depth:1.3 meters\nC. Image Coor:(304, 96), Depth:1.3 meters\nD. Image Coor:(85, 749), Depth:1.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005197/000.jpg", + "spar_bench/sample_005197/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5198, + "data_source": "SPAR-Bench", + "question": "How does the observer of the second image map onto the first image? Provide 2D image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(310, 400), Depth:0.9 meters\nB. Image Coor:(725, 337), Depth:0.9 meters\nC. Image Coor:(993, 111), Depth:0.9 meters\nD. Image Coor:(834, 104), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005198/000.jpg", + "spar_bench/sample_005198/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5199, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate system, where does the observer of the second image appear? Output 2D coordinates in the image plane and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(98, 742), Depth:1.1 meters\nB. Image Coor:(249, 134), Depth:1.1 meters\nC. Image Coor:(416, 508), Depth:1.1 meters\nD. Image Coor:(472, 899), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005199/000.jpg", + "spar_bench/sample_005199/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5200, + "data_source": "SPAR-Bench", + "question": "Find the location of the observer from the second image in the coordinate space of the first image. Provide (X, Y) image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(205, 356), Depth:0.3 meters\nB. Image Coor:(313, 471), Depth:0.3 meters\nC. Image Coor:(601, 38), Depth:0.3 meters\nD. Image Coor:(966, 385), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005200/000.jpg", + "spar_bench/sample_005200/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5201, + "data_source": "SPAR-Bench", + "question": "What are the image-plane coordinates and depth in meters for the observer of the second image in the first image\u2019s reference frame? Choose the correct answer from the choices available.\nA. Image Coor:(323, 356), Depth:0.7 meters\nB. Image Coor:(447, 587), Depth:0.9 meters\nC. Image Coor:(162, 956), Depth:0.9 meters\nD. Image Coor:(971, 30), Depth:0.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005201/000.jpg", + "spar_bench/sample_005201/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5202, + "data_source": "SPAR-Bench", + "question": "Given the two images, estimate the 2D image-plane position and depth (in meters) of the second image\u2019s observer in the first image. Select the appropriate response from the given choices.\nA. Image Coor:(232, 995), Depth:0.4 meters\nB. Image Coor:(678, 647), Depth:0.4 meters\nC. Image Coor:(946, 908), Depth:0.4 meters\nD. Image Coor:(583, 310), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005202/000.jpg", + "spar_bench/sample_005202/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5203, + "data_source": "SPAR-Bench", + "question": "How would the observer of the second image be positioned in the first image\u2019s frame of reference? Provide image-plane coordinates and depth in meters. Choose the correct option from the available choices.\nA. Image Coor:(580, 924), Depth:0.7 meters\nB. Image Coor:(152, 6), Depth:1.3 meters\nC. Image Coor:(948, 314), Depth:1.1 meters\nD. Image Coor:(59, 847), Depth:1.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005203/000.jpg", + "spar_bench/sample_005203/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5204, + "data_source": "SPAR-Bench", + "question": "How does the camera\u2019s movement between the two images affect its position in the first image? Provide (X, Y) image-plane coordinates and depth in meters. Pick the appropriate answer from the options given.\nA. Image Coor:(252, 660), Depth:1.7 meters\nB. Image Coor:(392, 195), Depth:1.2 meters\nC. Image Coor:(787, 18), Depth:1.6 meters\nD. Image Coor:(284, 522), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005204/000.jpg", + "spar_bench/sample_005204/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5205, + "data_source": "SPAR-Bench", + "question": "What are the projected 2D image-plane coordinates and depth (in meters) of the second image\u2019s observer in the first image\u2019s coordinate space? Choose the correct response from the given choices.\nA. Image Coor:(537, 349), Depth:0.1 meters\nB. Image Coor:(388, 788), Depth:0.1 meters\nC. Image Coor:(911, 774), Depth:0.1 meters\nD. Image Coor:(94, 433), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005205/000.jpg", + "spar_bench/sample_005205/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5206, + "data_source": "SPAR-Bench", + "question": "Locate the observer from the second image within the coordinate frame of the first image. Give 2D image-plane coordinates and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(999, 265), Depth:0.1 meters\nB. Image Coor:(358, 490), Depth:0.1 meters\nC. Image Coor:(254, 910), Depth:0.1 meters\nD. Image Coor:(105, 811), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005206/000.jpg", + "spar_bench/sample_005206/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5207, + "data_source": "SPAR-Bench", + "question": "In the coordinate system of the first image, locate the observer from the second image. Provide 2D image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(911, 499), Depth:0.4 meters\nB. Image Coor:(340, 879), Depth:0.3 meters\nC. Image Coor:(589, 67), Depth:0.4 meters\nD. Image Coor:(841, 273), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005207/000.jpg", + "spar_bench/sample_005207/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5208, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image\u2019s space if they captured the second image. Provide image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(474, 742), Depth:4.2 meters\nB. Image Coor:(15, 501), Depth:4.2 meters\nC. Image Coor:(203, 13), Depth:4.2 meters\nD. Image Coor:(803, 350), Depth:4.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005208/000.jpg", + "spar_bench/sample_005208/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5209, + "data_source": "SPAR-Bench", + "question": "What are the image-plane coordinates and depth in meters for the observer of the second image in the first image\u2019s reference frame? Choose the appropriate answer from the options given.\nA. Image Coor:(54, 800), Depth:0.1 meters\nB. Image Coor:(506, 152), Depth:0.1 meters\nC. Image Coor:(788, 259), Depth:0.1 meters\nD. Image Coor:(271, 202), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005209/000.jpg", + "spar_bench/sample_005209/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannet" + }, + { + "question_id": 5210, + "data_source": "SPAR-Bench", + "question": "Determine the projection of the second image\u2019s observer in the first image\u2019s coordinate system. Provide 2D image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(271, 589), Depth:2.1 meters\nB. Image Coor:(869, 359), Depth:1.5 meters\nC. Image Coor:(44, 298), Depth:1.5 meters\nD. Image Coor:(764, 873), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005210/000.jpg", + "spar_bench/sample_005210/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5211, + "data_source": "SPAR-Bench", + "question": "Identify the (X, Y) location in the image plane and depth (in meters) of the second image\u2019s observer within the first image\u2019s coordinate system. Pick the right response from the available choices.\nA. Image Coor:(967, 899), Depth:1.7 meters\nB. Image Coor:(320, 497), Depth:1.7 meters\nC. Image Coor:(680, 226), Depth:1.7 meters\nD. Image Coor:(240, 758), Depth:1.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005211/000.jpg", + "spar_bench/sample_005211/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5212, + "data_source": "SPAR-Bench", + "question": "Given the two images, estimate where the second image\u2019s observer is positioned within the first image\u2019s coordinate frame. Provide image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(317, 628), Depth:1.2 meters\nB. Image Coor:(987, 429), Depth:0.7 meters\nC. Image Coor:(878, 197), Depth:1.1 meters\nD. Image Coor:(620, 661), Depth:1.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005212/000.jpg", + "spar_bench/sample_005212/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5213, + "data_source": "SPAR-Bench", + "question": "Determine the projection of the second image\u2019s observer in the first image\u2019s coordinate system. Provide 2D image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(580, 484), Depth:1.4 meters\nB. Image Coor:(162, 934), Depth:1.3 meters\nC. Image Coor:(761, 683), Depth:0.8 meters\nD. Image Coor:(969, 76), Depth:1.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005213/000.jpg", + "spar_bench/sample_005213/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5214, + "data_source": "SPAR-Bench", + "question": "Estimate the position of the second image\u2019s observer in the first image\u2019s reference system. Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(816, 374), Depth:0.4 meters\nB. Image Coor:(802, 533), Depth:0.7 meters\nC. Image Coor:(509, 410), Depth:0.5 meters\nD. Image Coor:(64, 256), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005214/000.jpg", + "spar_bench/sample_005214/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5215, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s placement in the first image\u2019s space if they captured the second image. Provide 2D image-plane coordinates and depth in meters. Choose the correct option from the available choices.\nA. Image Coor:(780, 808), Depth:1.5 meters\nB. Image Coor:(207, 68), Depth:1.7 meters\nC. Image Coor:(286, 336), Depth:0.9 meters\nD. Image Coor:(386, 66), Depth:2.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005215/000.jpg", + "spar_bench/sample_005215/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5216, + "data_source": "SPAR-Bench", + "question": "Given two viewpoints, determine the position of the observer of the second image as seen in the first image\u2019s coordinate system. Provide image-plane coordinates and depth in meters. Choose the correct answer from the choices available.\nA. Image Coor:(101, 245), Depth:1.7 meters\nB. Image Coor:(686, 121), Depth:1.6 meters\nC. Image Coor:(973, 485), Depth:1.1 meters\nD. Image Coor:(815, 629), Depth:1.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005216/000.jpg", + "spar_bench/sample_005216/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5217, + "data_source": "SPAR-Bench", + "question": "Given two viewpoints, determine the position of the observer of the second image as seen in the first image\u2019s coordinate system. Provide image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(346, 831), Depth:0.7 meters\nB. Image Coor:(194, 782), Depth:0.7 meters\nC. Image Coor:(745, 444), Depth:0.7 meters\nD. Image Coor:(947, 669), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005217/000.jpg", + "spar_bench/sample_005217/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5218, + "data_source": "SPAR-Bench", + "question": "Where would the second image\u2019s observer be seen in the first image\u2019s space? Provide 2D image-plane coordinates and depth in meters. Choose the correct answer from the choices available.\nA. Image Coor:(88, 563), Depth:2.0 meters\nB. Image Coor:(636, 709), Depth:1.0 meters\nC. Image Coor:(434, 37), Depth:1.9 meters\nD. Image Coor:(745, 223), Depth:1.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005218/000.jpg", + "spar_bench/sample_005218/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5219, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the observer of the second image within the first image\u2019s coordinate frame? Provide (X, Y) in the image plane and depth in meters. Select the appropriate response from the given choices.\nA. Image Coor:(5, 724), Depth:3.4 meters\nB. Image Coor:(424, 423), Depth:2.6 meters\nC. Image Coor:(245, 821), Depth:1.5 meters\nD. Image Coor:(119, 990), Depth:2.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005219/000.jpg", + "spar_bench/sample_005219/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5220, + "data_source": "SPAR-Bench", + "question": "Find the mapped location of the second image\u2019s observer within the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(237, 668), Depth:2.3 meters\nB. Image Coor:(506, 259), Depth:2.3 meters\nC. Image Coor:(867, 713), Depth:2.3 meters\nD. Image Coor:(176, 883), Depth:2.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005220/000.jpg", + "spar_bench/sample_005220/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5221, + "data_source": "SPAR-Bench", + "question": "Given two viewpoints, determine the position of the observer of the second image as seen in the first image\u2019s coordinate system. Provide image-plane coordinates and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(657, 694), Depth:0.8 meters\nB. Image Coor:(920, 920), Depth:0.5 meters\nC. Image Coor:(858, 962), Depth:0.7 meters\nD. Image Coor:(821, 265), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005221/000.jpg", + "spar_bench/sample_005221/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5222, + "data_source": "SPAR-Bench", + "question": "If the second image is taken from a new viewpoint, what is its camera\u2019s location in the first image? Answer with 2D image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(428, 309), Depth:0.2 meters\nB. Image Coor:(79, 980), Depth:0.2 meters\nC. Image Coor:(939, 715), Depth:0.2 meters\nD. Image Coor:(499, 934), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005222/000.jpg", + "spar_bench/sample_005222/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5223, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the observer of the second image within the first image\u2019s coordinate frame? Provide (X, Y) in the image plane and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(343, 400), Depth:0.9 meters\nB. Image Coor:(458, 731), Depth:0.9 meters\nC. Image Coor:(993, 817), Depth:0.9 meters\nD. Image Coor:(762, 713), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005223/000.jpg", + "spar_bench/sample_005223/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5224, + "data_source": "SPAR-Bench", + "question": "Where would the second image\u2019s observer be seen in the first image\u2019s space? Provide 2D image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(214, 882), Depth:0.2 meters\nB. Image Coor:(440, 360), Depth:0.3 meters\nC. Image Coor:(896, 841), Depth:0.2 meters\nD. Image Coor:(282, 317), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005224/000.jpg", + "spar_bench/sample_005224/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5225, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(212, 299), Depth:3.9 meters\nB. Image Coor:(991, 88), Depth:3.9 meters\nC. Image Coor:(191, 351), Depth:3.9 meters\nD. Image Coor:(66, 534), Depth:3.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005225/000.jpg", + "spar_bench/sample_005225/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5226, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image\u2019s space if they captured the second image. Provide image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(413, 11), Depth:2.3 meters\nB. Image Coor:(252, 377), Depth:2.3 meters\nC. Image Coor:(865, 876), Depth:2.3 meters\nD. Image Coor:(137, 958), Depth:2.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005226/000.jpg", + "spar_bench/sample_005226/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5227, + "data_source": "SPAR-Bench", + "question": "Determine the projection of the second image\u2019s observer in the first image\u2019s coordinate system. Provide 2D image-plane coordinates and depth in meters. Choose the appropriate answer from the options given.\nA. Image Coor:(675, 996), Depth:1.1 meters\nB. Image Coor:(943, 866), Depth:0.8 meters\nC. Image Coor:(129, 305), Depth:1.5 meters\nD. Image Coor:(211, 872), Depth:2.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005227/000.jpg", + "spar_bench/sample_005227/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5228, + "data_source": "SPAR-Bench", + "question": "How would the observer of the second image be positioned in the first image\u2019s frame of reference? Provide image-plane coordinates and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(406, 44), Depth:1.7 meters\nB. Image Coor:(889, 335), Depth:1.7 meters\nC. Image Coor:(105, 847), Depth:1.7 meters\nD. Image Coor:(454, 251), Depth:1.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005228/000.jpg", + "spar_bench/sample_005228/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5229, + "data_source": "SPAR-Bench", + "question": "Identify the (X, Y) location in the image plane and depth (in meters) of the second image\u2019s observer within the first image\u2019s coordinate system. Choose the appropriate answer from the options given.\nA. Image Coor:(414, 712), Depth:1.3 meters\nB. Image Coor:(959, 369), Depth:0.7 meters\nC. Image Coor:(85, 863), Depth:1.6 meters\nD. Image Coor:(441, 234), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005229/000.jpg", + "spar_bench/sample_005229/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5230, + "data_source": "SPAR-Bench", + "question": "From the perspective of the first image, where is the camera from the second image located? Provide image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(190, 537), Depth:2.6 meters\nB. Image Coor:(915, 202), Depth:3.2 meters\nC. Image Coor:(12, 682), Depth:2.7 meters\nD. Image Coor:(574, 840), Depth:3.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005230/000.jpg", + "spar_bench/sample_005230/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5231, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s placement in the first image\u2019s space if they captured the second image. Provide 2D image-plane coordinates and depth in meters. Select the right response from the available choices.\nA. Image Coor:(30, 693), Depth:1.7 meters\nB. Image Coor:(789, 607), Depth:3.1 meters\nC. Image Coor:(305, 367), Depth:3.0 meters\nD. Image Coor:(136, 140), Depth:2.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005231/000.jpg", + "spar_bench/sample_005231/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5232, + "data_source": "SPAR-Bench", + "question": "How can the observer\u2019s position in the second image be represented in the first image? Output 2D image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(648, 643), Depth:1.3 meters\nB. Image Coor:(437, 272), Depth:0.7 meters\nC. Image Coor:(648, 197), Depth:1.0 meters\nD. Image Coor:(249, 38), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005232/000.jpg", + "spar_bench/sample_005232/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5233, + "data_source": "SPAR-Bench", + "question": "Given the two images, estimate where the second image\u2019s observer is positioned within the first image\u2019s coordinate frame. Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(55, 351), Depth:3.2 meters\nB. Image Coor:(839, 600), Depth:4.7 meters\nC. Image Coor:(239, 610), Depth:3.0 meters\nD. Image Coor:(391, 456), Depth:5.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005233/000.jpg", + "spar_bench/sample_005233/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5234, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s placement in the first image\u2019s space if they captured the second image. Provide 2D image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(118, 75), Depth:1.6 meters\nB. Image Coor:(739, 476), Depth:1.6 meters\nC. Image Coor:(706, 275), Depth:1.3 meters\nD. Image Coor:(718, 758), Depth:2.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005234/000.jpg", + "spar_bench/sample_005234/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5235, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(740, 499), Depth:4.5 meters\nB. Image Coor:(294, 14), Depth:4.5 meters\nC. Image Coor:(977, 477), Depth:4.5 meters\nD. Image Coor:(965, 72), Depth:4.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005235/000.jpg", + "spar_bench/sample_005235/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5236, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Select the right response from the available choices.\nA. Image Coor:(62, 737), Depth:0.9 meters\nB. Image Coor:(369, 540), Depth:0.9 meters\nC. Image Coor:(633, 899), Depth:0.9 meters\nD. Image Coor:(74, 129), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005236/000.jpg", + "spar_bench/sample_005236/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5237, + "data_source": "SPAR-Bench", + "question": "How does the position of the observer of the second image translate into the first image\u2019s coordinate system? Provide (X, Y) in the image plane and depth in meters. Choose the appropriate answer from the options given.\nA. Image Coor:(302, 434), Depth:4.7 meters\nB. Image Coor:(816, 843), Depth:5.4 meters\nC. Image Coor:(74, 36), Depth:2.7 meters\nD. Image Coor:(897, 362), Depth:6.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005237/000.jpg", + "spar_bench/sample_005237/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5238, + "data_source": "SPAR-Bench", + "question": "Find the location of the observer from the second image in the coordinate space of the first image. Provide (X, Y) image-plane coordinates and depth in meters. Choose the correct answer from the choices available.\nA. Image Coor:(469, 736), Depth:1.7 meters\nB. Image Coor:(169, 138), Depth:2.2 meters\nC. Image Coor:(151, 932), Depth:1.6 meters\nD. Image Coor:(818, 745), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005238/000.jpg", + "spar_bench/sample_005238/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5239, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the observer of the second image within the first image\u2019s coordinate frame? Provide (X, Y) in the image plane and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(299, 145), Depth:1.6 meters\nB. Image Coor:(195, 902), Depth:2.6 meters\nC. Image Coor:(905, 236), Depth:2.3 meters\nD. Image Coor:(475, 718), Depth:3.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005239/000.jpg", + "spar_bench/sample_005239/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5240, + "data_source": "SPAR-Bench", + "question": "If the second image\u2019s observer was positioned in the first image\u2019s space, where would they appear? Provide 2D image-plane coordinates and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(8, 575), Depth:3.1 meters\nB. Image Coor:(514, 853), Depth:3.1 meters\nC. Image Coor:(759, 376), Depth:3.1 meters\nD. Image Coor:(247, 972), Depth:3.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005240/000.jpg", + "spar_bench/sample_005240/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5241, + "data_source": "SPAR-Bench", + "question": "Project the observer from the second image into the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(339, 299), Depth:0.6 meters\nB. Image Coor:(875, 98), Depth:1.0 meters\nC. Image Coor:(436, 202), Depth:1.4 meters\nD. Image Coor:(569, 905), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005241/000.jpg", + "spar_bench/sample_005241/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5242, + "data_source": "SPAR-Bench", + "question": "What are the image-plane coordinates and depth in meters for the observer of the second image in the first image\u2019s reference frame? Choose the appropriate answer from the options given.\nA. Image Coor:(205, 255), Depth:0.3 meters\nB. Image Coor:(659, 840), Depth:0.5 meters\nC. Image Coor:(166, 537), Depth:0.7 meters\nD. Image Coor:(350, 366), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005242/000.jpg", + "spar_bench/sample_005242/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5243, + "data_source": "SPAR-Bench", + "question": "From the perspective of the first image, where would the observer of the second image appear? Provide image-plane coordinates and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(22, 570), Depth:1.7 meters\nB. Image Coor:(904, 377), Depth:1.0 meters\nC. Image Coor:(789, 676), Depth:2.3 meters\nD. Image Coor:(77, 225), Depth:1.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005243/000.jpg", + "spar_bench/sample_005243/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5244, + "data_source": "SPAR-Bench", + "question": "How would the observer of the second image be positioned in the first image\u2019s frame of reference? Provide image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(331, 868), Depth:0.3 meters\nB. Image Coor:(715, 914), Depth:0.5 meters\nC. Image Coor:(5, 737), Depth:0.5 meters\nD. Image Coor:(266, 277), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005244/000.jpg", + "spar_bench/sample_005244/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5245, + "data_source": "SPAR-Bench", + "question": "Given two images, estimate the 2D image-plane position and depth of the second image\u2019s observer in the first image\u2019s coordinate system. Pick the correct answer from the choices provided.\nA. Image Coor:(497, 499), Depth:0.4 meters\nB. Image Coor:(200, 709), Depth:0.4 meters\nC. Image Coor:(60, 343), Depth:0.5 meters\nD. Image Coor:(703, 446), Depth:0.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005245/000.jpg", + "spar_bench/sample_005245/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5246, + "data_source": "SPAR-Bench", + "question": "Find the mapped location of the second image\u2019s observer within the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(76, 802), Depth:1.4 meters\nB. Image Coor:(830, 161), Depth:0.7 meters\nC. Image Coor:(469, 134), Depth:1.3 meters\nD. Image Coor:(441, 632), Depth:1.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005246/000.jpg", + "spar_bench/sample_005246/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5247, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image\u2019s space if they captured the second image. Provide image-plane coordinates and depth in meters. Choose the appropriate answer from the options given.\nA. Image Coor:(979, 498), Depth:3.3 meters\nB. Image Coor:(128, 676), Depth:2.9 meters\nC. Image Coor:(767, 467), Depth:4.1 meters\nD. Image Coor:(951, 570), Depth:4.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005247/000.jpg", + "spar_bench/sample_005247/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5248, + "data_source": "SPAR-Bench", + "question": "Identify the corresponding 2D image-plane location and depth (in meters) of the observer from the second image in the first image\u2019s coordinate frame. Please select the correct option from the choices provided.\nA. Image Coor:(752, 185), Depth:2.2 meters\nB. Image Coor:(722, 521), Depth:2.2 meters\nC. Image Coor:(2, 490), Depth:2.2 meters\nD. Image Coor:(941, 611), Depth:2.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005248/000.jpg", + "spar_bench/sample_005248/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5249, + "data_source": "SPAR-Bench", + "question": "Locate the observer from the second image within the coordinate frame of the first image. Give 2D image-plane coordinates and depth in meters. Select the right response from the available choices.\nA. Image Coor:(980, 906), Depth:0.2 meters\nB. Image Coor:(46, 702), Depth:0.4 meters\nC. Image Coor:(602, 253), Depth:0.3 meters\nD. Image Coor:(163, 937), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005249/000.jpg", + "spar_bench/sample_005249/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5250, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(845, 581), Depth:1.1 meters\nB. Image Coor:(568, 835), Depth:1.1 meters\nC. Image Coor:(995, 240), Depth:1.1 meters\nD. Image Coor:(623, 671), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005250/000.jpg", + "spar_bench/sample_005250/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5251, + "data_source": "SPAR-Bench", + "question": "If the second image\u2019s observer was positioned in the first image\u2019s space, where would they appear? Provide 2D image-plane coordinates and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(783, 626), Depth:1.4 meters\nB. Image Coor:(237, 883), Depth:1.4 meters\nC. Image Coor:(720, 731), Depth:1.4 meters\nD. Image Coor:(684, 6), Depth:1.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005251/000.jpg", + "spar_bench/sample_005251/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5252, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s spatial reference, where does the observer of the second image appear? Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(53, 102), Depth:2.7 meters\nB. Image Coor:(951, 177), Depth:1.7 meters\nC. Image Coor:(206, 527), Depth:2.2 meters\nD. Image Coor:(817, 527), Depth:2.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005252/000.jpg", + "spar_bench/sample_005252/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5253, + "data_source": "SPAR-Bench", + "question": "Given the two images, estimate where the second image\u2019s observer is positioned within the first image\u2019s coordinate frame. Provide image-plane coordinates and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(548, 296), Depth:1.1 meters\nB. Image Coor:(813, 594), Depth:2.1 meters\nC. Image Coor:(325, 6), Depth:3.1 meters\nD. Image Coor:(940, 192), Depth:3.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005253/000.jpg", + "spar_bench/sample_005253/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5254, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the observer of the second image within the first image\u2019s coordinate frame? Provide (X, Y) in the image plane and depth in meters. Choose the correct option from the available choices.\nA. Image Coor:(406, 470), Depth:0.5 meters\nB. Image Coor:(10, 73), Depth:0.5 meters\nC. Image Coor:(147, 490), Depth:0.5 meters\nD. Image Coor:(858, 437), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005254/000.jpg", + "spar_bench/sample_005254/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5255, + "data_source": "SPAR-Bench", + "question": "Project the observer from the second image into the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Choose the appropriate answer from the options given.\nA. Image Coor:(104, 724), Depth:4.4 meters\nB. Image Coor:(542, 95), Depth:4.5 meters\nC. Image Coor:(827, 408), Depth:3.2 meters\nD. Image Coor:(770, 756), Depth:5.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005255/000.jpg", + "spar_bench/sample_005255/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5256, + "data_source": "SPAR-Bench", + "question": "Given two images, determine where the second image\u2019s observer is positioned in the first image. Output image-plane coordinates and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(364, 187), Depth:0.1 meters\nB. Image Coor:(664, 218), Depth:0.1 meters\nC. Image Coor:(534, 945), Depth:0.1 meters\nD. Image Coor:(403, 34), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005256/000.jpg", + "spar_bench/sample_005256/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5257, + "data_source": "SPAR-Bench", + "question": "Find the location of the observer from the second image in the coordinate space of the first image. Provide (X, Y) image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(429, 119), Depth:0.8 meters\nB. Image Coor:(598, 751), Depth:1.7 meters\nC. Image Coor:(474, 485), Depth:1.0 meters\nD. Image Coor:(769, 195), Depth:1.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005257/000.jpg", + "spar_bench/sample_005257/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5258, + "data_source": "SPAR-Bench", + "question": "Project the observer from the second image into the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Choose the appropriate answer from the options given.\nA. Image Coor:(280, 311), Depth:1.9 meters\nB. Image Coor:(332, 868), Depth:1.9 meters\nC. Image Coor:(214, 671), Depth:1.9 meters\nD. Image Coor:(542, 487), Depth:1.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005258/000.jpg", + "spar_bench/sample_005258/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5259, + "data_source": "SPAR-Bench", + "question": "Estimate the image-plane location and depth in meters of the second image\u2019s observer as it appears in the first image\u2019s coordinate space. Choose the appropriate option from the choices provided.\nA. Image Coor:(208, 937), Depth:0.4 meters\nB. Image Coor:(986, 543), Depth:0.2 meters\nC. Image Coor:(489, 788), Depth:0.4 meters\nD. Image Coor:(130, 477), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005259/000.jpg", + "spar_bench/sample_005259/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5260, + "data_source": "SPAR-Bench", + "question": "Where is the second image\u2019s observer when projected into the first image\u2019s coordinate frame? Provide 2D image-plane coordinates and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(685, 736), Depth:1.4 meters\nB. Image Coor:(685, 365), Depth:1.1 meters\nC. Image Coor:(257, 608), Depth:1.5 meters\nD. Image Coor:(771, 973), Depth:0.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005260/000.jpg", + "spar_bench/sample_005260/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5261, + "data_source": "SPAR-Bench", + "question": "From the first image\u2019s perspective, determine the 2D image-plane coordinates and depth in meters of the second image\u2019s observer. Please select the correct option from the choices provided.\nA. Image Coor:(570, 29), Depth:0.9 meters\nB. Image Coor:(904, 876), Depth:0.9 meters\nC. Image Coor:(812, 263), Depth:0.9 meters\nD. Image Coor:(764, 414), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005261/000.jpg", + "spar_bench/sample_005261/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5262, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s placement in the first image\u2019s space if they captured the second image. Provide 2D image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(978, 9), Depth:2.2 meters\nB. Image Coor:(417, 444), Depth:3.0 meters\nC. Image Coor:(264, 34), Depth:3.3 meters\nD. Image Coor:(837, 502), Depth:4.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005262/000.jpg", + "spar_bench/sample_005262/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5263, + "data_source": "SPAR-Bench", + "question": "Find the location of the observer from the second image in the coordinate space of the first image. Provide (X, Y) image-plane coordinates and depth in meters. Choose the correct option from the available choices.\nA. Image Coor:(276, 164), Depth:1.8 meters\nB. Image Coor:(170, 793), Depth:1.3 meters\nC. Image Coor:(830, 189), Depth:2.3 meters\nD. Image Coor:(471, 557), Depth:2.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005263/000.jpg", + "spar_bench/sample_005263/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5264, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the observer of the second image within the first image\u2019s coordinate frame? Provide (X, Y) in the image plane and depth in meters. Choose the appropriate answer from the options given.\nA. Image Coor:(332, 415), Depth:2.6 meters\nB. Image Coor:(778, 882), Depth:2.6 meters\nC. Image Coor:(394, 70), Depth:2.6 meters\nD. Image Coor:(532, 718), Depth:2.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005264/000.jpg", + "spar_bench/sample_005264/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5265, + "data_source": "SPAR-Bench", + "question": "Find the mapped location of the second image\u2019s observer within the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(917, 642), Depth:0.4 meters\nB. Image Coor:(632, 143), Depth:0.4 meters\nC. Image Coor:(313, 538), Depth:0.6 meters\nD. Image Coor:(400, 862), Depth:0.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005265/000.jpg", + "spar_bench/sample_005265/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5266, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(996, 225), Depth:1.7 meters\nB. Image Coor:(840, 102), Depth:1.8 meters\nC. Image Coor:(62, 555), Depth:1.0 meters\nD. Image Coor:(874, 861), Depth:1.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005266/000.jpg", + "spar_bench/sample_005266/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5267, + "data_source": "SPAR-Bench", + "question": "Determine the projection of the second image\u2019s observer in the first image\u2019s coordinate system. Provide 2D image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(307, 326), Depth:2.7 meters\nB. Image Coor:(952, 746), Depth:3.2 meters\nC. Image Coor:(307, 747), Depth:2.7 meters\nD. Image Coor:(71, 89), Depth:4.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005267/000.jpg", + "spar_bench/sample_005267/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5268, + "data_source": "SPAR-Bench", + "question": "Identify the observer's position in the second image relative to the first image. Provide (X, Y) in the image plane and depth in meters. Select the right response from the available choices.\nA. Image Coor:(599, 952), Depth:1.9 meters\nB. Image Coor:(462, 785), Depth:1.9 meters\nC. Image Coor:(639, 179), Depth:1.9 meters\nD. Image Coor:(315, 523), Depth:1.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005268/000.jpg", + "spar_bench/sample_005268/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5269, + "data_source": "SPAR-Bench", + "question": "What is the 2D image-plane position and depth of the second image\u2019s observer when mapped into the first image? Depth should be given in meters. Please select the correct option from the choices provided.\nA. Image Coor:(128, 577), Depth:2.7 meters\nB. Image Coor:(282, 633), Depth:5.8 meters\nC. Image Coor:(68, 496), Depth:5.0 meters\nD. Image Coor:(338, 82), Depth:4.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005269/000.jpg", + "spar_bench/sample_005269/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5270, + "data_source": "SPAR-Bench", + "question": "From the perspective of the first image, where would the observer of the second image appear? Provide image-plane coordinates and depth in meters. Choose the correct option from the available choices.\nA. Image Coor:(717, 603), Depth:0.5 meters\nB. Image Coor:(307, 721), Depth:1.2 meters\nC. Image Coor:(969, 794), Depth:0.8 meters\nD. Image Coor:(152, 230), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005270/000.jpg", + "spar_bench/sample_005270/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5271, + "data_source": "SPAR-Bench", + "question": "Find the location of the observer from the second image in the coordinate space of the first image. Provide (X, Y) image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(183, 849), Depth:0.8 meters\nB. Image Coor:(973, 285), Depth:0.7 meters\nC. Image Coor:(894, 142), Depth:0.5 meters\nD. Image Coor:(899, 499), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005271/000.jpg", + "spar_bench/sample_005271/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5272, + "data_source": "SPAR-Bench", + "question": "Where does the observer of the second image appear in the first image\u2019s coordinate frame? Give 2D image-plane coordinates and depth in meters. Select the right response from the available choices.\nA. Image Coor:(699, 992), Depth:1.8 meters\nB. Image Coor:(632, 232), Depth:1.8 meters\nC. Image Coor:(662, 613), Depth:1.8 meters\nD. Image Coor:(70, 623), Depth:1.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005272/000.jpg", + "spar_bench/sample_005272/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5273, + "data_source": "SPAR-Bench", + "question": "Given two viewpoints, determine the position of the observer of the second image as seen in the first image\u2019s coordinate system. Provide image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(107, 472), Depth:2.3 meters\nB. Image Coor:(940, 687), Depth:2.4 meters\nC. Image Coor:(843, 462), Depth:2.9 meters\nD. Image Coor:(295, 877), Depth:2.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005273/000.jpg", + "spar_bench/sample_005273/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5274, + "data_source": "SPAR-Bench", + "question": "If the second image\u2019s observer was positioned in the first image\u2019s space, where would they appear? Provide 2D image-plane coordinates and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(598, 417), Depth:0.8 meters\nB. Image Coor:(851, 238), Depth:0.4 meters\nC. Image Coor:(134, 523), Depth:0.6 meters\nD. Image Coor:(952, 808), Depth:0.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005274/000.jpg", + "spar_bench/sample_005274/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5275, + "data_source": "SPAR-Bench", + "question": "Find the corresponding image-plane position and depth (in meters) of the observer of the second image within the first image\u2019s coordinate space. Please select the correct option from the choices provided.\nA. Image Coor:(528, 31), Depth:2.2 meters\nB. Image Coor:(301, 679), Depth:2.2 meters\nC. Image Coor:(1, 747), Depth:2.2 meters\nD. Image Coor:(191, 988), Depth:2.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005275/000.jpg", + "spar_bench/sample_005275/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5276, + "data_source": "SPAR-Bench", + "question": "Project the observer from the second image into the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(395, 292), Depth:0.5 meters\nB. Image Coor:(38, 73), Depth:0.4 meters\nC. Image Coor:(920, 955), Depth:0.7 meters\nD. Image Coor:(88, 479), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005276/000.jpg", + "spar_bench/sample_005276/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5277, + "data_source": "SPAR-Bench", + "question": "How does the position of the observer of the second image translate into the first image\u2019s coordinate system? Provide (X, Y) in the image plane and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(270, 529), Depth:0.9 meters\nB. Image Coor:(921, 623), Depth:0.9 meters\nC. Image Coor:(369, 432), Depth:0.9 meters\nD. Image Coor:(890, 235), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005277/000.jpg", + "spar_bench/sample_005277/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5278, + "data_source": "SPAR-Bench", + "question": "Identify the corresponding 2D image-plane location and depth (in meters) of the observer from the second image in the first image\u2019s coordinate frame. Choose the appropriate option from the choices provided.\nA. Image Coor:(524, 602), Depth:3.0 meters\nB. Image Coor:(872, 690), Depth:3.0 meters\nC. Image Coor:(86, 148), Depth:3.0 meters\nD. Image Coor:(584, 980), Depth:3.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005278/000.jpg", + "spar_bench/sample_005278/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5279, + "data_source": "SPAR-Bench", + "question": "If the second image is taken from a new viewpoint, what is its camera\u2019s location in the first image? Answer with 2D image-plane coordinates and depth in meters. Select the appropriate response from the given choices.\nA. Image Coor:(163, 534), Depth:2.3 meters\nB. Image Coor:(574, 500), Depth:2.3 meters\nC. Image Coor:(451, 839), Depth:1.3 meters\nD. Image Coor:(799, 77), Depth:1.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005279/000.jpg", + "spar_bench/sample_005279/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5280, + "data_source": "SPAR-Bench", + "question": "Identify the corresponding 2D image-plane location and depth (in meters) of the observer from the second image in the first image\u2019s coordinate frame. Pick the right response from the available choices.\nA. Image Coor:(529, 261), Depth:1.1 meters\nB. Image Coor:(232, 516), Depth:1.0 meters\nC. Image Coor:(680, 374), Depth:1.2 meters\nD. Image Coor:(751, 289), Depth:1.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005280/000.jpg", + "spar_bench/sample_005280/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5281, + "data_source": "SPAR-Bench", + "question": "What is the 2D image-plane position and depth of the second image\u2019s observer when mapped into the first image? Depth should be given in meters. Choose the right response from the choices provided.\nA. Image Coor:(827, 842), Depth:1.5 meters\nB. Image Coor:(976, 61), Depth:1.1 meters\nC. Image Coor:(529, 297), Depth:0.9 meters\nD. Image Coor:(533, 587), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005281/000.jpg", + "spar_bench/sample_005281/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5282, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image\u2019s space if they captured the second image. Provide image-plane coordinates and depth in meters. Pick the appropriate answer from the options given.\nA. Image Coor:(844, 183), Depth:0.6 meters\nB. Image Coor:(973, 76), Depth:1.8 meters\nC. Image Coor:(95, 471), Depth:1.2 meters\nD. Image Coor:(542, 261), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005282/000.jpg", + "spar_bench/sample_005282/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5283, + "data_source": "SPAR-Bench", + "question": "Estimate the image-plane location and depth in meters of the second image\u2019s observer as it appears in the first image\u2019s coordinate space. Pick the appropriate option from the choices provided.\nA. Image Coor:(21, 431), Depth:8.8 meters\nB. Image Coor:(426, 848), Depth:7.3 meters\nC. Image Coor:(26, 115), Depth:5.6 meters\nD. Image Coor:(374, 272), Depth:6.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005283/000.jpg", + "spar_bench/sample_005283/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5284, + "data_source": "SPAR-Bench", + "question": "Given two images, determine where the second image\u2019s observer is positioned in the first image. Output image-plane coordinates and depth in meters. Choose the correct option from the available choices.\nA. Image Coor:(293, 366), Depth:0.8 meters\nB. Image Coor:(401, 917), Depth:0.8 meters\nC. Image Coor:(322, 905), Depth:0.8 meters\nD. Image Coor:(116, 709), Depth:0.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005284/000.jpg", + "spar_bench/sample_005284/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5285, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s spatial reference, where does the observer of the second image appear? Provide image-plane coordinates and depth in meters. Choose the correct answer from the choices available.\nA. Image Coor:(298, 220), Depth:1.8 meters\nB. Image Coor:(65, 995), Depth:1.8 meters\nC. Image Coor:(355, 152), Depth:1.8 meters\nD. Image Coor:(757, 67), Depth:1.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005285/000.jpg", + "spar_bench/sample_005285/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5286, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s spatial reference, where does the observer of the second image appear? Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(564, 100), Depth:0.5 meters\nB. Image Coor:(730, 822), Depth:0.5 meters\nC. Image Coor:(568, 434), Depth:0.5 meters\nD. Image Coor:(983, 29), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005286/000.jpg", + "spar_bench/sample_005286/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5287, + "data_source": "SPAR-Bench", + "question": "Find the mapped location of the second image\u2019s observer within the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(979, 178), Depth:0.4 meters\nB. Image Coor:(357, 781), Depth:0.4 meters\nC. Image Coor:(931, 248), Depth:0.2 meters\nD. Image Coor:(629, 171), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005287/000.jpg", + "spar_bench/sample_005287/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5288, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(187, 748), Depth:0.9 meters\nB. Image Coor:(933, 512), Depth:0.9 meters\nC. Image Coor:(58, 938), Depth:0.9 meters\nD. Image Coor:(433, 968), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005288/000.jpg", + "spar_bench/sample_005288/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5289, + "data_source": "SPAR-Bench", + "question": "How does the observer of the second image map onto the first image? Provide 2D image-plane coordinates and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(38, 42), Depth:0.7 meters\nB. Image Coor:(190, 130), Depth:0.4 meters\nC. Image Coor:(420, 736), Depth:0.6 meters\nD. Image Coor:(772, 301), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005289/000.jpg", + "spar_bench/sample_005289/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5290, + "data_source": "SPAR-Bench", + "question": "From the first image\u2019s perspective, determine the 2D image-plane coordinates and depth in meters of the second image\u2019s observer. Pick the correct option from the choices provided.\nA. Image Coor:(423, 836), Depth:5.1 meters\nB. Image Coor:(410, 453), Depth:4.4 meters\nC. Image Coor:(742, 244), Depth:5.0 meters\nD. Image Coor:(920, 760), Depth:2.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005290/000.jpg", + "spar_bench/sample_005290/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5291, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(546, 170), Depth:0.8 meters\nB. Image Coor:(419, 529), Depth:0.5 meters\nC. Image Coor:(526, 602), Depth:0.8 meters\nD. Image Coor:(451, 752), Depth:0.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005291/000.jpg", + "spar_bench/sample_005291/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5292, + "data_source": "SPAR-Bench", + "question": "Estimate the image-plane location and depth in meters of the second image\u2019s observer as it appears in the first image\u2019s coordinate space. Pick the appropriate option from the choices provided.\nA. Image Coor:(294, 188), Depth:1.9 meters\nB. Image Coor:(549, 763), Depth:2.4 meters\nC. Image Coor:(49, 715), Depth:2.0 meters\nD. Image Coor:(742, 368), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005292/000.jpg", + "spar_bench/sample_005292/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5293, + "data_source": "SPAR-Bench", + "question": "Find the mapped location of the second image\u2019s observer within the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Pick the appropriate answer from the options given.\nA. Image Coor:(96, 121), Depth:2.3 meters\nB. Image Coor:(756, 269), Depth:1.7 meters\nC. Image Coor:(55, 562), Depth:2.3 meters\nD. Image Coor:(737, 933), Depth:2.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005293/000.jpg", + "spar_bench/sample_005293/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5294, + "data_source": "SPAR-Bench", + "question": "What are the projected 2D image-plane coordinates and depth (in meters) of the second image\u2019s observer in the first image\u2019s coordinate space? Select the right response from the available choices.\nA. Image Coor:(113, 637), Depth:3.2 meters\nB. Image Coor:(197, 771), Depth:2.5 meters\nC. Image Coor:(166, 10), Depth:3.2 meters\nD. Image Coor:(60, 762), Depth:1.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005294/000.jpg", + "spar_bench/sample_005294/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5295, + "data_source": "SPAR-Bench", + "question": "Given the two images, estimate where the second image\u2019s observer is positioned within the first image\u2019s coordinate frame. Provide image-plane coordinates and depth in meters. Choose the correct answer from the choices available.\nA. Image Coor:(929, 730), Depth:0.7 meters\nB. Image Coor:(509, 60), Depth:0.7 meters\nC. Image Coor:(167, 83), Depth:0.7 meters\nD. Image Coor:(872, 975), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005295/000.jpg", + "spar_bench/sample_005295/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5296, + "data_source": "SPAR-Bench", + "question": "Determine the (X, Y) position in the image plane and depth in meters of the second image\u2019s observer within the first image\u2019s coordinate frame. Choose the right response from the choices provided.\nA. Image Coor:(493, 26), Depth:2.9 meters\nB. Image Coor:(440, 933), Depth:2.7 meters\nC. Image Coor:(938, 390), Depth:2.0 meters\nD. Image Coor:(493, 476), Depth:2.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005296/000.jpg", + "spar_bench/sample_005296/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5297, + "data_source": "SPAR-Bench", + "question": "Where is the observer from the second image when mapped onto the first image\u2019s coordinate system? Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(978, 823), Depth:1.2 meters\nB. Image Coor:(60, 578), Depth:1.2 meters\nC. Image Coor:(672, 532), Depth:1.2 meters\nD. Image Coor:(14, 548), Depth:1.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005297/000.jpg", + "spar_bench/sample_005297/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5298, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(620, 465), Depth:1.0 meters\nB. Image Coor:(479, 950), Depth:0.9 meters\nC. Image Coor:(983, 780), Depth:0.5 meters\nD. Image Coor:(861, 808), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005298/000.jpg", + "spar_bench/sample_005298/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5299, + "data_source": "SPAR-Bench", + "question": "What are the image-plane coordinates and depth in meters for the observer of the second image in the first image\u2019s reference frame? Select the correct answer from the given choices.\nA. Image Coor:(517, 161), Depth:0.4 meters\nB. Image Coor:(12, 733), Depth:0.3 meters\nC. Image Coor:(215, 878), Depth:0.4 meters\nD. Image Coor:(779, 813), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005299/000.jpg", + "spar_bench/sample_005299/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5300, + "data_source": "SPAR-Bench", + "question": "If the second image is taken from a new viewpoint, what is its camera\u2019s location in the first image? Answer with 2D image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(891, 547), Depth:3.6 meters\nB. Image Coor:(918, 524), Depth:3.2 meters\nC. Image Coor:(253, 524), Depth:2.5 meters\nD. Image Coor:(880, 100), Depth:3.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005300/000.jpg", + "spar_bench/sample_005300/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5301, + "data_source": "SPAR-Bench", + "question": "Find the mapped location of the second image\u2019s observer within the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(144, 584), Depth:0.5 meters\nB. Image Coor:(653, 263), Depth:0.5 meters\nC. Image Coor:(92, 537), Depth:0.5 meters\nD. Image Coor:(459, 681), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005301/000.jpg", + "spar_bench/sample_005301/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5302, + "data_source": "SPAR-Bench", + "question": "Identify the observer's position in the second image relative to the first image. Provide (X, Y) in the image plane and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(845, 531), Depth:0.6 meters\nB. Image Coor:(985, 819), Depth:0.5 meters\nC. Image Coor:(404, 167), Depth:0.5 meters\nD. Image Coor:(485, 663), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005302/000.jpg", + "spar_bench/sample_005302/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5303, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(376, 258), Depth:0.5 meters\nB. Image Coor:(659, 840), Depth:0.5 meters\nC. Image Coor:(918, 376), Depth:0.5 meters\nD. Image Coor:(594, 85), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005303/000.jpg", + "spar_bench/sample_005303/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5304, + "data_source": "SPAR-Bench", + "question": "Determine where the observer from the second image is located in the coordinate system of the first image. Provide image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(131, 141), Depth:3.3 meters\nB. Image Coor:(789, 294), Depth:2.7 meters\nC. Image Coor:(230, 814), Depth:3.8 meters\nD. Image Coor:(480, 884), Depth:2.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005304/000.jpg", + "spar_bench/sample_005304/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5305, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(172, 693), Depth:1.7 meters\nB. Image Coor:(636, 229), Depth:1.7 meters\nC. Image Coor:(705, 922), Depth:1.7 meters\nD. Image Coor:(948, 587), Depth:1.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005305/000.jpg", + "spar_bench/sample_005305/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5306, + "data_source": "SPAR-Bench", + "question": "Given two images, determine where the second image\u2019s observer is positioned in the first image. Output image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(994, 885), Depth:1.9 meters\nB. Image Coor:(769, 525), Depth:1.9 meters\nC. Image Coor:(203, 380), Depth:1.9 meters\nD. Image Coor:(477, 834), Depth:1.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005306/000.jpg", + "spar_bench/sample_005306/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5307, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image\u2019s space if they captured the second image. Provide image-plane coordinates and depth in meters. Select the appropriate response from the given choices.\nA. Image Coor:(798, 300), Depth:0.2 meters\nB. Image Coor:(58, 434), Depth:0.2 meters\nC. Image Coor:(297, 221), Depth:0.2 meters\nD. Image Coor:(284, 766), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005307/000.jpg", + "spar_bench/sample_005307/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5308, + "data_source": "SPAR-Bench", + "question": "Where is the observer from the second image when mapped onto the first image\u2019s coordinate system? Provide image-plane coordinates and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(901, 511), Depth:2.4 meters\nB. Image Coor:(746, 916), Depth:2.4 meters\nC. Image Coor:(492, 505), Depth:2.4 meters\nD. Image Coor:(437, 99), Depth:2.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005308/000.jpg", + "spar_bench/sample_005308/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5309, + "data_source": "SPAR-Bench", + "question": "Given the two images, estimate the 2D image-plane position and depth (in meters) of the second image\u2019s observer in the first image. Please select the correct option from the choices provided.\nA. Image Coor:(15, 914), Depth:1.7 meters\nB. Image Coor:(862, 883), Depth:1.9 meters\nC. Image Coor:(394, 92), Depth:1.7 meters\nD. Image Coor:(51, 391), Depth:2.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005309/000.jpg", + "spar_bench/sample_005309/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5310, + "data_source": "SPAR-Bench", + "question": "Find the mapped location of the second image\u2019s observer within the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Select the appropriate response from the given choices.\nA. Image Coor:(853, 721), Depth:1.1 meters\nB. Image Coor:(82, 242), Depth:0.8 meters\nC. Image Coor:(216, 834), Depth:0.7 meters\nD. Image Coor:(679, 382), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005310/000.jpg", + "spar_bench/sample_005310/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5311, + "data_source": "SPAR-Bench", + "question": "Where does the observer of the second image appear in the first image\u2019s coordinate frame? Give 2D image-plane coordinates and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(310, 67), Depth:1.5 meters\nB. Image Coor:(580, 450), Depth:1.7 meters\nC. Image Coor:(252, 519), Depth:2.5 meters\nD. Image Coor:(84, 852), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005311/000.jpg", + "spar_bench/sample_005311/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5312, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(109, 224), Depth:1.7 meters\nB. Image Coor:(946, 274), Depth:1.7 meters\nC. Image Coor:(8, 991), Depth:1.7 meters\nD. Image Coor:(485, 336), Depth:1.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005312/000.jpg", + "spar_bench/sample_005312/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5313, + "data_source": "SPAR-Bench", + "question": "Identify the observer's position in the second image relative to the first image. Provide (X, Y) in the image plane and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(486, 141), Depth:0.1 meters\nB. Image Coor:(412, 926), Depth:0.1 meters\nC. Image Coor:(291, 839), Depth:0.1 meters\nD. Image Coor:(137, 33), Depth:0.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005313/000.jpg", + "spar_bench/sample_005313/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5314, + "data_source": "SPAR-Bench", + "question": "From the perspective of the first image, where would the observer of the second image appear? Provide image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(90, 816), Depth:0.8 meters\nB. Image Coor:(363, 875), Depth:0.8 meters\nC. Image Coor:(968, 193), Depth:0.8 meters\nD. Image Coor:(903, 497), Depth:0.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005314/000.jpg", + "spar_bench/sample_005314/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5315, + "data_source": "SPAR-Bench", + "question": "Where would the second image\u2019s observer appear in the first image? Answer with image-plane coordinates (X, Y) and depth in meters. Choose the correct option from the available choices.\nA. Image Coor:(891, 462), Depth:0.3 meters\nB. Image Coor:(517, 855), Depth:0.3 meters\nC. Image Coor:(157, 642), Depth:0.2 meters\nD. Image Coor:(77, 622), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005315/000.jpg", + "spar_bench/sample_005315/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5316, + "data_source": "SPAR-Bench", + "question": "Determine where the observer from the second image is located in the coordinate system of the first image. Provide image-plane coordinates and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(623, 278), Depth:1.4 meters\nB. Image Coor:(988, 92), Depth:1.4 meters\nC. Image Coor:(963, 401), Depth:1.4 meters\nD. Image Coor:(135, 362), Depth:1.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005316/000.jpg", + "spar_bench/sample_005316/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5317, + "data_source": "SPAR-Bench", + "question": "Locate the observer from the second image within the coordinate frame of the first image. Give 2D image-plane coordinates and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(372, 240), Depth:2.6 meters\nB. Image Coor:(314, 661), Depth:2.6 meters\nC. Image Coor:(37, 794), Depth:2.6 meters\nD. Image Coor:(818, 638), Depth:2.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005317/000.jpg", + "spar_bench/sample_005317/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5318, + "data_source": "SPAR-Bench", + "question": "Determine the (X, Y) position in the image plane and depth in meters of the second image\u2019s observer within the first image\u2019s coordinate frame. Choose the appropriate option from the choices provided.\nA. Image Coor:(466, 89), Depth:2.2 meters\nB. Image Coor:(233, 570), Depth:2.7 meters\nC. Image Coor:(823, 632), Depth:4.6 meters\nD. Image Coor:(174, 186), Depth:3.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005318/000.jpg", + "spar_bench/sample_005318/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5319, + "data_source": "SPAR-Bench", + "question": "How does the position of the observer of the second image translate into the first image\u2019s coordinate system? Provide (X, Y) in the image plane and depth in meters. Choose the correct option from the available choices.\nA. Image Coor:(152, 919), Depth:0.5 meters\nB. Image Coor:(299, 361), Depth:1.2 meters\nC. Image Coor:(589, 723), Depth:0.6 meters\nD. Image Coor:(548, 53), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005319/000.jpg", + "spar_bench/sample_005319/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5320, + "data_source": "SPAR-Bench", + "question": "Estimate the image-plane location and depth in meters of the second image\u2019s observer as it appears in the first image\u2019s coordinate space. Select the correct response from the given choices.\nA. Image Coor:(208, 217), Depth:0.9 meters\nB. Image Coor:(956, 280), Depth:1.5 meters\nC. Image Coor:(573, 586), Depth:1.8 meters\nD. Image Coor:(518, 64), Depth:2.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005320/000.jpg", + "spar_bench/sample_005320/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5321, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s placement in the first image\u2019s space if they captured the second image. Provide 2D image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(884, 497), Depth:1.1 meters\nB. Image Coor:(452, 995), Depth:1.4 meters\nC. Image Coor:(192, 486), Depth:1.2 meters\nD. Image Coor:(293, 675), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005321/000.jpg", + "spar_bench/sample_005321/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5322, + "data_source": "SPAR-Bench", + "question": "Given two images, estimate the 2D image-plane position and depth of the second image\u2019s observer in the first image\u2019s coordinate system. Please select the correct option from the choices provided.\nA. Image Coor:(55, 835), Depth:1.8 meters\nB. Image Coor:(89, 262), Depth:1.8 meters\nC. Image Coor:(512, 117), Depth:1.8 meters\nD. Image Coor:(164, 431), Depth:1.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005322/000.jpg", + "spar_bench/sample_005322/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5323, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(248, 187), Depth:3.0 meters\nB. Image Coor:(30, 710), Depth:2.6 meters\nC. Image Coor:(600, 43), Depth:3.8 meters\nD. Image Coor:(569, 165), Depth:4.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005323/000.jpg", + "spar_bench/sample_005323/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5324, + "data_source": "SPAR-Bench", + "question": "How can the observer\u2019s position in the second image be represented in the first image? Output 2D image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(132, 877), Depth:1.1 meters\nB. Image Coor:(519, 315), Depth:1.1 meters\nC. Image Coor:(939, 431), Depth:1.1 meters\nD. Image Coor:(411, 728), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005324/000.jpg", + "spar_bench/sample_005324/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5325, + "data_source": "SPAR-Bench", + "question": "How would the observer of the second image be positioned in the first image\u2019s frame of reference? Provide image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(419, 782), Depth:0.4 meters\nB. Image Coor:(612, 456), Depth:0.4 meters\nC. Image Coor:(831, 881), Depth:0.4 meters\nD. Image Coor:(365, 822), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005325/000.jpg", + "spar_bench/sample_005325/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5326, + "data_source": "SPAR-Bench", + "question": "How does the observer of the second image map onto the first image? Provide 2D image-plane coordinates and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(476, 388), Depth:0.2 meters\nB. Image Coor:(72, 101), Depth:0.2 meters\nC. Image Coor:(167, 289), Depth:0.2 meters\nD. Image Coor:(815, 630), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005326/000.jpg", + "spar_bench/sample_005326/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5327, + "data_source": "SPAR-Bench", + "question": "How does the position of the observer of the second image translate into the first image\u2019s coordinate system? Provide (X, Y) in the image plane and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(490, 540), Depth:3.0 meters\nB. Image Coor:(648, 453), Depth:1.3 meters\nC. Image Coor:(492, 550), Depth:2.8 meters\nD. Image Coor:(729, 29), Depth:2.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005327/000.jpg", + "spar_bench/sample_005327/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5328, + "data_source": "SPAR-Bench", + "question": "Determine the projection of the second image\u2019s observer in the first image\u2019s coordinate system. Provide 2D image-plane coordinates and depth in meters. Select the right response from the available choices.\nA. Image Coor:(430, 199), Depth:1.1 meters\nB. Image Coor:(991, 611), Depth:0.7 meters\nC. Image Coor:(751, 608), Depth:0.6 meters\nD. Image Coor:(17, 706), Depth:1.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005328/000.jpg", + "spar_bench/sample_005328/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5329, + "data_source": "SPAR-Bench", + "question": "If the second image is taken from a new viewpoint, what is its camera\u2019s location in the first image? Answer with 2D image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(829, 773), Depth:3.6 meters\nB. Image Coor:(95, 178), Depth:3.6 meters\nC. Image Coor:(184, 505), Depth:3.6 meters\nD. Image Coor:(572, 362), Depth:3.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005329/000.jpg", + "spar_bench/sample_005329/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5330, + "data_source": "SPAR-Bench", + "question": "Identify the corresponding 2D image-plane location and depth (in meters) of the observer from the second image in the first image\u2019s coordinate frame. Pick the appropriate option from the choices available.\nA. Image Coor:(867, 51), Depth:1.5 meters\nB. Image Coor:(173, 448), Depth:1.4 meters\nC. Image Coor:(457, 667), Depth:1.2 meters\nD. Image Coor:(15, 440), Depth:2.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005330/000.jpg", + "spar_bench/sample_005330/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5331, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(327, 55), Depth:5.3 meters\nB. Image Coor:(758, 378), Depth:5.3 meters\nC. Image Coor:(255, 702), Depth:5.3 meters\nD. Image Coor:(581, 277), Depth:5.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005331/000.jpg", + "spar_bench/sample_005331/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5332, + "data_source": "SPAR-Bench", + "question": "From the first image\u2019s perspective, determine the 2D image-plane coordinates and depth in meters of the second image\u2019s observer. Choose the correct response from the given choices.\nA. Image Coor:(956, 452), Depth:0.3 meters\nB. Image Coor:(682, 366), Depth:0.3 meters\nC. Image Coor:(406, 202), Depth:0.4 meters\nD. Image Coor:(430, 996), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005332/000.jpg", + "spar_bench/sample_005332/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5333, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s spatial reference, where does the observer of the second image appear? Provide image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(61, 206), Depth:3.6 meters\nB. Image Coor:(710, 152), Depth:3.6 meters\nC. Image Coor:(680, 835), Depth:3.6 meters\nD. Image Coor:(828, 967), Depth:3.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005333/000.jpg", + "spar_bench/sample_005333/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5334, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s spatial reference, where does the observer of the second image appear? Provide image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(60, 73), Depth:0.3 meters\nB. Image Coor:(450, 903), Depth:0.3 meters\nC. Image Coor:(937, 380), Depth:0.3 meters\nD. Image Coor:(491, 273), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005334/000.jpg", + "spar_bench/sample_005334/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5335, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(211, 956), Depth:3.4 meters\nB. Image Coor:(690, 309), Depth:3.4 meters\nC. Image Coor:(437, 45), Depth:3.4 meters\nD. Image Coor:(35, 806), Depth:3.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005335/000.jpg", + "spar_bench/sample_005335/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5336, + "data_source": "SPAR-Bench", + "question": "Locate the observer from the second image within the coordinate frame of the first image. Give 2D image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(761, 736), Depth:1.3 meters\nB. Image Coor:(483, 37), Depth:2.4 meters\nC. Image Coor:(830, 927), Depth:2.6 meters\nD. Image Coor:(770, 960), Depth:2.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005336/000.jpg", + "spar_bench/sample_005336/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5337, + "data_source": "SPAR-Bench", + "question": "In the coordinate system of the first image, locate the observer from the second image. Provide 2D image-plane coordinates and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(327, 702), Depth:2.8 meters\nB. Image Coor:(252, 943), Depth:4.1 meters\nC. Image Coor:(506, 273), Depth:3.0 meters\nD. Image Coor:(8, 867), Depth:3.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005337/000.jpg", + "spar_bench/sample_005337/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5338, + "data_source": "SPAR-Bench", + "question": "Given two images, estimate the 2D image-plane position and depth of the second image\u2019s observer in the first image\u2019s coordinate system. Select the right option from the choices provided.\nA. Image Coor:(998, 848), Depth:0.5 meters\nB. Image Coor:(904, 213), Depth:0.5 meters\nC. Image Coor:(693, 460), Depth:0.5 meters\nD. Image Coor:(147, 457), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005338/000.jpg", + "spar_bench/sample_005338/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5339, + "data_source": "SPAR-Bench", + "question": "Find the location of the observer from the second image in the coordinate space of the first image. Provide (X, Y) image-plane coordinates and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(649, 168), Depth:2.6 meters\nB. Image Coor:(878, 837), Depth:3.4 meters\nC. Image Coor:(677, 171), Depth:3.0 meters\nD. Image Coor:(532, 738), Depth:3.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005339/000.jpg", + "spar_bench/sample_005339/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5340, + "data_source": "SPAR-Bench", + "question": "Identify the corresponding 2D image-plane location and depth (in meters) of the observer from the second image in the first image\u2019s coordinate frame. Select the appropriate response from the given choices.\nA. Image Coor:(781, 644), Depth:0.5 meters\nB. Image Coor:(976, 674), Depth:0.5 meters\nC. Image Coor:(125, 984), Depth:0.5 meters\nD. Image Coor:(903, 82), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005340/000.jpg", + "spar_bench/sample_005340/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5341, + "data_source": "SPAR-Bench", + "question": "Where is the observer from the second image when mapped onto the first image\u2019s coordinate system? Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(711, 355), Depth:4.2 meters\nB. Image Coor:(206, 211), Depth:4.2 meters\nC. Image Coor:(452, 735), Depth:4.2 meters\nD. Image Coor:(545, 853), Depth:4.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005341/000.jpg", + "spar_bench/sample_005341/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5342, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(960, 656), Depth:0.8 meters\nB. Image Coor:(250, 699), Depth:1.0 meters\nC. Image Coor:(463, 45), Depth:0.6 meters\nD. Image Coor:(704, 247), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005342/000.jpg", + "spar_bench/sample_005342/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5343, + "data_source": "SPAR-Bench", + "question": "Estimate the position of the second image\u2019s observer in the first image\u2019s reference system. Provide image-plane coordinates and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(18, 361), Depth:2.6 meters\nB. Image Coor:(834, 664), Depth:2.6 meters\nC. Image Coor:(540, 664), Depth:2.6 meters\nD. Image Coor:(694, 211), Depth:2.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005343/000.jpg", + "spar_bench/sample_005343/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5344, + "data_source": "SPAR-Bench", + "question": "Identify the corresponding 2D image-plane location and depth (in meters) of the observer from the second image in the first image\u2019s coordinate frame. Choose the right answer from the options available.\nA. Image Coor:(212, 222), Depth:2.5 meters\nB. Image Coor:(831, 298), Depth:2.5 meters\nC. Image Coor:(825, 620), Depth:2.5 meters\nD. Image Coor:(800, 677), Depth:2.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005344/000.jpg", + "spar_bench/sample_005344/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5345, + "data_source": "SPAR-Bench", + "question": "If the second image is taken from a new viewpoint, what is its camera\u2019s location in the first image? Answer with 2D image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(173, 892), Depth:3.1 meters\nB. Image Coor:(711, 107), Depth:1.8 meters\nC. Image Coor:(485, 381), Depth:2.9 meters\nD. Image Coor:(551, 933), Depth:1.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005345/000.jpg", + "spar_bench/sample_005345/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5346, + "data_source": "SPAR-Bench", + "question": "Identify the observer's position in the second image relative to the first image. Provide (X, Y) in the image plane and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(613, 62), Depth:1.0 meters\nB. Image Coor:(857, 234), Depth:1.0 meters\nC. Image Coor:(91, 715), Depth:0.9 meters\nD. Image Coor:(108, 218), Depth:1.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005346/000.jpg", + "spar_bench/sample_005346/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5347, + "data_source": "SPAR-Bench", + "question": "Determine the projection of the second image\u2019s observer in the first image\u2019s coordinate system. Provide 2D image-plane coordinates and depth in meters. Choose the correct answer from the choices available.\nA. Image Coor:(615, 737), Depth:0.7 meters\nB. Image Coor:(358, 229), Depth:0.4 meters\nC. Image Coor:(306, 964), Depth:0.7 meters\nD. Image Coor:(137, 644), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005347/000.jpg", + "spar_bench/sample_005347/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5348, + "data_source": "SPAR-Bench", + "question": "Project the observer from the second image into the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(459, 91), Depth:2.4 meters\nB. Image Coor:(686, 336), Depth:2.4 meters\nC. Image Coor:(84, 223), Depth:2.4 meters\nD. Image Coor:(871, 872), Depth:2.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005348/000.jpg", + "spar_bench/sample_005348/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5349, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(303, 102), Depth:0.4 meters\nB. Image Coor:(215, 483), Depth:0.4 meters\nC. Image Coor:(906, 48), Depth:0.4 meters\nD. Image Coor:(715, 972), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005349/000.jpg", + "spar_bench/sample_005349/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5350, + "data_source": "SPAR-Bench", + "question": "What are the image-plane coordinates and depth in meters for the observer of the second image in the first image\u2019s reference frame? Choose the appropriate answer from the options given.\nA. Image Coor:(506, 210), Depth:1.1 meters\nB. Image Coor:(850, 12), Depth:1.1 meters\nC. Image Coor:(73, 131), Depth:1.0 meters\nD. Image Coor:(810, 934), Depth:1.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005350/000.jpg", + "spar_bench/sample_005350/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5351, + "data_source": "SPAR-Bench", + "question": "Estimate the image-plane location and depth in meters of the second image\u2019s observer as it appears in the first image\u2019s coordinate space. Select the correct response from the given choices.\nA. Image Coor:(326, 886), Depth:2.0 meters\nB. Image Coor:(220, 198), Depth:2.0 meters\nC. Image Coor:(651, 668), Depth:2.0 meters\nD. Image Coor:(713, 859), Depth:2.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005351/000.jpg", + "spar_bench/sample_005351/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5352, + "data_source": "SPAR-Bench", + "question": "What are the projected 2D image-plane coordinates and depth (in meters) of the second image\u2019s observer in the first image\u2019s coordinate space? Pick the appropriate option from the choices provided.\nA. Image Coor:(18, 495), Depth:1.5 meters\nB. Image Coor:(283, 17), Depth:1.5 meters\nC. Image Coor:(563, 650), Depth:1.5 meters\nD. Image Coor:(78, 724), Depth:1.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005352/000.jpg", + "spar_bench/sample_005352/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5353, + "data_source": "SPAR-Bench", + "question": "Determine where the observer from the second image is located in the coordinate system of the first image. Provide image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(404, 662), Depth:3.9 meters\nB. Image Coor:(772, 887), Depth:1.6 meters\nC. Image Coor:(80, 531), Depth:3.1 meters\nD. Image Coor:(948, 808), Depth:2.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005353/000.jpg", + "spar_bench/sample_005353/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5354, + "data_source": "SPAR-Bench", + "question": "Given two images, estimate the 2D image-plane position and depth of the second image\u2019s observer in the first image\u2019s coordinate system. Please select the correct option from the choices provided.\nA. Image Coor:(396, 125), Depth:3.0 meters\nB. Image Coor:(855, 612), Depth:3.3 meters\nC. Image Coor:(634, 362), Depth:3.2 meters\nD. Image Coor:(988, 622), Depth:1.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005354/000.jpg", + "spar_bench/sample_005354/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5355, + "data_source": "SPAR-Bench", + "question": "What is the 2D image-plane position and depth of the second image\u2019s observer when mapped into the first image? Depth should be given in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(785, 11), Depth:2.5 meters\nB. Image Coor:(214, 944), Depth:2.5 meters\nC. Image Coor:(188, 603), Depth:2.5 meters\nD. Image Coor:(969, 504), Depth:2.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005355/000.jpg", + "spar_bench/sample_005355/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5356, + "data_source": "SPAR-Bench", + "question": "From the perspective of the first image, where is the camera from the second image located? Provide image-plane coordinates and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(226, 369), Depth:2.3 meters\nB. Image Coor:(647, 773), Depth:1.7 meters\nC. Image Coor:(40, 514), Depth:1.7 meters\nD. Image Coor:(222, 281), Depth:1.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005356/000.jpg", + "spar_bench/sample_005356/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5357, + "data_source": "SPAR-Bench", + "question": "Based on the given images, determine where the second image\u2019s observer is located in the first image. Provide image-plane coordinates and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(163, 822), Depth:2.6 meters\nB. Image Coor:(786, 89), Depth:2.6 meters\nC. Image Coor:(20, 566), Depth:2.6 meters\nD. Image Coor:(533, 693), Depth:2.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005357/000.jpg", + "spar_bench/sample_005357/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5358, + "data_source": "SPAR-Bench", + "question": "Estimate where the second image\u2019s observer would appear when projected onto the first image\u2019s coordinate space. Provide image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(287, 635), Depth:0.8 meters\nB. Image Coor:(777, 749), Depth:0.5 meters\nC. Image Coor:(599, 94), Depth:0.6 meters\nD. Image Coor:(34, 10), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005358/000.jpg", + "spar_bench/sample_005358/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5359, + "data_source": "SPAR-Bench", + "question": "Given the two images, estimate where the second image\u2019s observer is positioned within the first image\u2019s coordinate frame. Provide image-plane coordinates and depth in meters. Pick the correct answer from the choices provided.\nA. Image Coor:(310, 883), Depth:0.6 meters\nB. Image Coor:(375, 857), Depth:1.3 meters\nC. Image Coor:(996, 702), Depth:1.0 meters\nD. Image Coor:(551, 574), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005359/000.jpg", + "spar_bench/sample_005359/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5360, + "data_source": "SPAR-Bench", + "question": "If the second image\u2019s observer was positioned in the first image\u2019s space, where would they appear? Provide 2D image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(182, 936), Depth:0.5 meters\nB. Image Coor:(416, 91), Depth:0.5 meters\nC. Image Coor:(721, 354), Depth:0.5 meters\nD. Image Coor:(35, 122), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005360/000.jpg", + "spar_bench/sample_005360/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5361, + "data_source": "SPAR-Bench", + "question": "Find the location of the observer from the second image in the coordinate space of the first image. Provide (X, Y) image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(759, 926), Depth:2.7 meters\nB. Image Coor:(400, 632), Depth:2.7 meters\nC. Image Coor:(325, 244), Depth:2.7 meters\nD. Image Coor:(235, 697), Depth:2.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005361/000.jpg", + "spar_bench/sample_005361/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5362, + "data_source": "SPAR-Bench", + "question": "Where would the second image\u2019s observer be seen in the first image\u2019s space? Provide 2D image-plane coordinates and depth in meters. Choose the appropriate answer from the options given.\nA. Image Coor:(60, 343), Depth:0.5 meters\nB. Image Coor:(919, 523), Depth:0.5 meters\nC. Image Coor:(609, 805), Depth:0.5 meters\nD. Image Coor:(975, 116), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005362/000.jpg", + "spar_bench/sample_005362/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5363, + "data_source": "SPAR-Bench", + "question": "Based on the given images, determine where the second image\u2019s observer is located in the first image. Provide image-plane coordinates and depth in meters. Pick the appropriate option from the choices provided.\nA. Image Coor:(580, 20), Depth:2.2 meters\nB. Image Coor:(460, 466), Depth:2.2 meters\nC. Image Coor:(984, 544), Depth:2.2 meters\nD. Image Coor:(753, 467), Depth:2.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005363/000.jpg", + "spar_bench/sample_005363/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5364, + "data_source": "SPAR-Bench", + "question": "What are the projected 2D image-plane coordinates and depth (in meters) of the second image\u2019s observer in the first image\u2019s coordinate space? Pick the correct answer from the choices provided.\nA. Image Coor:(4, 356), Depth:0.3 meters\nB. Image Coor:(657, 100), Depth:0.3 meters\nC. Image Coor:(425, 376), Depth:0.3 meters\nD. Image Coor:(951, 404), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005364/000.jpg", + "spar_bench/sample_005364/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5365, + "data_source": "SPAR-Bench", + "question": "Estimate where the second image\u2019s observer would appear when projected onto the first image\u2019s coordinate space. Provide image-plane coordinates and depth in meters. Select the right response from the available choices.\nA. Image Coor:(603, 154), Depth:0.5 meters\nB. Image Coor:(138, 62), Depth:0.6 meters\nC. Image Coor:(65, 930), Depth:0.7 meters\nD. Image Coor:(99, 471), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005365/000.jpg", + "spar_bench/sample_005365/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5366, + "data_source": "SPAR-Bench", + "question": "Estimate the image-plane location and depth in meters of the second image\u2019s observer as it appears in the first image\u2019s coordinate space. Select the right response from the available choices.\nA. Image Coor:(949, 666), Depth:2.7 meters\nB. Image Coor:(714, 142), Depth:2.7 meters\nC. Image Coor:(288, 299), Depth:2.7 meters\nD. Image Coor:(938, 979), Depth:2.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005366/000.jpg", + "spar_bench/sample_005366/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5367, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Choose the correct answer from the choices available.\nA. Image Coor:(282, 222), Depth:1.2 meters\nB. Image Coor:(383, 749), Depth:0.7 meters\nC. Image Coor:(695, 533), Depth:1.3 meters\nD. Image Coor:(519, 260), Depth:1.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005367/000.jpg", + "spar_bench/sample_005367/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5368, + "data_source": "SPAR-Bench", + "question": "Find the location of the observer from the second image in the coordinate space of the first image. Provide (X, Y) image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(147, 547), Depth:1.6 meters\nB. Image Coor:(908, 727), Depth:1.6 meters\nC. Image Coor:(199, 793), Depth:3.1 meters\nD. Image Coor:(812, 290), Depth:2.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005368/000.jpg", + "spar_bench/sample_005368/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5369, + "data_source": "SPAR-Bench", + "question": "Where does the observer of the second image appear in the first image\u2019s coordinate frame? Give 2D image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(309, 62), Depth:1.3 meters\nB. Image Coor:(762, 918), Depth:1.3 meters\nC. Image Coor:(950, 71), Depth:1.3 meters\nD. Image Coor:(82, 813), Depth:1.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005369/000.jpg", + "spar_bench/sample_005369/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5370, + "data_source": "SPAR-Bench", + "question": "Given two images, estimate the 2D image-plane position and depth of the second image\u2019s observer in the first image\u2019s coordinate system. Pick the correct option from the choices provided.\nA. Image Coor:(822, 801), Depth:0.9 meters\nB. Image Coor:(99, 825), Depth:0.5 meters\nC. Image Coor:(482, 627), Depth:1.2 meters\nD. Image Coor:(105, 193), Depth:0.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005370/000.jpg", + "spar_bench/sample_005370/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5371, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(608, 481), Depth:2.8 meters\nB. Image Coor:(515, 81), Depth:2.8 meters\nC. Image Coor:(464, 802), Depth:2.8 meters\nD. Image Coor:(866, 512), Depth:2.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005371/000.jpg", + "spar_bench/sample_005371/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5372, + "data_source": "SPAR-Bench", + "question": "Find the location of the observer from the second image in the coordinate space of the first image. Provide (X, Y) image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(831, 276), Depth:1.9 meters\nB. Image Coor:(148, 790), Depth:2.8 meters\nC. Image Coor:(532, 198), Depth:2.8 meters\nD. Image Coor:(827, 833), Depth:1.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005372/000.jpg", + "spar_bench/sample_005372/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5373, + "data_source": "SPAR-Bench", + "question": "Determine the (X, Y) position in the image plane and depth in meters of the second image\u2019s observer within the first image\u2019s coordinate frame. Pick the correct option from the choices provided.\nA. Image Coor:(138, 456), Depth:1.1 meters\nB. Image Coor:(478, 121), Depth:1.3 meters\nC. Image Coor:(793, 554), Depth:0.9 meters\nD. Image Coor:(457, 697), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005373/000.jpg", + "spar_bench/sample_005373/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5374, + "data_source": "SPAR-Bench", + "question": "From the first image\u2019s perspective, determine the 2D image-plane coordinates and depth in meters of the second image\u2019s observer. Pick the correct option from the choices provided.\nA. Image Coor:(335, 825), Depth:1.0 meters\nB. Image Coor:(780, 404), Depth:0.8 meters\nC. Image Coor:(232, 531), Depth:0.8 meters\nD. Image Coor:(483, 110), Depth:0.8 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005374/000.jpg", + "spar_bench/sample_005374/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5375, + "data_source": "SPAR-Bench", + "question": "How does the position of the observer of the second image translate into the first image\u2019s coordinate system? Provide (X, Y) in the image plane and depth in meters. Choose the correct answer from the choices available.\nA. Image Coor:(570, 595), Depth:1.9 meters\nB. Image Coor:(86, 875), Depth:1.4 meters\nC. Image Coor:(277, 409), Depth:2.0 meters\nD. Image Coor:(15, 986), Depth:2.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005375/000.jpg", + "spar_bench/sample_005375/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5376, + "data_source": "SPAR-Bench", + "question": "Estimate the image-plane location and depth in meters of the second image\u2019s observer as it appears in the first image\u2019s coordinate space. Please select the correct option from the choices provided.\nA. Image Coor:(411, 675), Depth:0.9 meters\nB. Image Coor:(634, 785), Depth:0.9 meters\nC. Image Coor:(521, 582), Depth:0.9 meters\nD. Image Coor:(370, 288), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005376/000.jpg", + "spar_bench/sample_005376/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5377, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s placement in the first image\u2019s space if they captured the second image. Provide 2D image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(161, 319), Depth:0.4 meters\nB. Image Coor:(954, 106), Depth:0.4 meters\nC. Image Coor:(567, 130), Depth:0.6 meters\nD. Image Coor:(202, 579), Depth:0.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005377/000.jpg", + "spar_bench/sample_005377/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5378, + "data_source": "SPAR-Bench", + "question": "Determine the projection of the second image\u2019s observer in the first image\u2019s coordinate system. Provide 2D image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(562, 782), Depth:0.3 meters\nB. Image Coor:(14, 519), Depth:0.4 meters\nC. Image Coor:(202, 447), Depth:0.2 meters\nD. Image Coor:(386, 169), Depth:0.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005378/000.jpg", + "spar_bench/sample_005378/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5379, + "data_source": "SPAR-Bench", + "question": "Where is the second image\u2019s observer when projected into the first image\u2019s coordinate frame? Provide 2D image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(615, 944), Depth:4.2 meters\nB. Image Coor:(428, 814), Depth:4.2 meters\nC. Image Coor:(231, 619), Depth:4.2 meters\nD. Image Coor:(322, 232), Depth:4.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005379/000.jpg", + "spar_bench/sample_005379/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5380, + "data_source": "SPAR-Bench", + "question": "How does the camera\u2019s movement between the two images affect its position in the first image? Provide (X, Y) image-plane coordinates and depth in meters. Select the appropriate response from the given choices.\nA. Image Coor:(739, 819), Depth:0.5 meters\nB. Image Coor:(493, 700), Depth:0.5 meters\nC. Image Coor:(867, 592), Depth:0.5 meters\nD. Image Coor:(201, 481), Depth:0.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005380/000.jpg", + "spar_bench/sample_005380/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5381, + "data_source": "SPAR-Bench", + "question": "From the first image\u2019s perspective, determine the 2D image-plane coordinates and depth in meters of the second image\u2019s observer. Choose the right response from the choices provided.\nA. Image Coor:(262, 126), Depth:3.3 meters\nB. Image Coor:(663, 898), Depth:1.7 meters\nC. Image Coor:(891, 823), Depth:4.8 meters\nD. Image Coor:(827, 180), Depth:4.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005381/000.jpg", + "spar_bench/sample_005381/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5382, + "data_source": "SPAR-Bench", + "question": "Determine where the observer from the second image is located in the coordinate system of the first image. Provide image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(376, 300), Depth:1.4 meters\nB. Image Coor:(271, 305), Depth:0.7 meters\nC. Image Coor:(55, 415), Depth:0.7 meters\nD. Image Coor:(574, 626), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005382/000.jpg", + "spar_bench/sample_005382/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5383, + "data_source": "SPAR-Bench", + "question": "If the second image\u2019s observer was positioned in the first image\u2019s space, where would they appear? Provide 2D image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(432, 305), Depth:5.0 meters\nB. Image Coor:(659, 535), Depth:5.0 meters\nC. Image Coor:(105, 172), Depth:5.0 meters\nD. Image Coor:(831, 143), Depth:5.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005383/000.jpg", + "spar_bench/sample_005383/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5384, + "data_source": "SPAR-Bench", + "question": "Identify the observer's position in the second image relative to the first image. Provide (X, Y) in the image plane and depth in meters. Select the correct answer from the given choices.\nA. Image Coor:(327, 328), Depth:5.1 meters\nB. Image Coor:(732, 57), Depth:5.1 meters\nC. Image Coor:(351, 325), Depth:5.1 meters\nD. Image Coor:(701, 745), Depth:5.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005384/000.jpg", + "spar_bench/sample_005384/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5385, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(589, 693), Depth:0.2 meters\nB. Image Coor:(939, 715), Depth:0.2 meters\nC. Image Coor:(13, 773), Depth:0.2 meters\nD. Image Coor:(313, 907), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005385/000.jpg", + "spar_bench/sample_005385/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5386, + "data_source": "SPAR-Bench", + "question": "Find the location of the observer from the second image in the coordinate space of the first image. Provide (X, Y) image-plane coordinates and depth in meters. Choose the correct option from the available choices.\nA. Image Coor:(577, 201), Depth:1.2 meters\nB. Image Coor:(116, 18), Depth:1.2 meters\nC. Image Coor:(936, 596), Depth:1.2 meters\nD. Image Coor:(770, 470), Depth:1.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005386/000.jpg", + "spar_bench/sample_005386/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5387, + "data_source": "SPAR-Bench", + "question": "Determine the projection of the second image\u2019s observer in the first image\u2019s coordinate system. Provide 2D image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(400, 154), Depth:0.7 meters\nB. Image Coor:(628, 597), Depth:0.5 meters\nC. Image Coor:(120, 750), Depth:0.3 meters\nD. Image Coor:(699, 926), Depth:0.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005387/000.jpg", + "spar_bench/sample_005387/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5388, + "data_source": "SPAR-Bench", + "question": "How would the observer of the second image be positioned in the first image\u2019s frame of reference? Provide image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(52, 848), Depth:3.9 meters\nB. Image Coor:(224, 509), Depth:1.9 meters\nC. Image Coor:(586, 715), Depth:1.6 meters\nD. Image Coor:(783, 43), Depth:3.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005388/000.jpg", + "spar_bench/sample_005388/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5389, + "data_source": "SPAR-Bench", + "question": "How can the observer\u2019s position in the second image be represented in the first image? Output 2D image-plane coordinates and depth in meters. Select the right option from the choices provided.\nA. Image Coor:(155, 669), Depth:2.2 meters\nB. Image Coor:(697, 746), Depth:2.2 meters\nC. Image Coor:(363, 451), Depth:2.2 meters\nD. Image Coor:(343, 503), Depth:2.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005389/000.jpg", + "spar_bench/sample_005389/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5390, + "data_source": "SPAR-Bench", + "question": "How would the observer of the second image be positioned in the first image\u2019s frame of reference? Provide image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(325, 776), Depth:0.5 meters\nB. Image Coor:(212, 410), Depth:1.1 meters\nC. Image Coor:(343, 365), Depth:1.1 meters\nD. Image Coor:(691, 947), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005390/000.jpg", + "spar_bench/sample_005390/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5391, + "data_source": "SPAR-Bench", + "question": "Determine the 2D image-plane location and depth (in meters) of the second image\u2019s observer in the first image. Pick the correct answer from the choices provided.\nA. Image Coor:(558, 111), Depth:2.1 meters\nB. Image Coor:(594, 554), Depth:2.1 meters\nC. Image Coor:(515, 985), Depth:2.1 meters\nD. Image Coor:(769, 181), Depth:2.1 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005391/000.jpg", + "spar_bench/sample_005391/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5392, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s placement in the first image\u2019s space if they captured the second image. Provide 2D image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(356, 147), Depth:0.9 meters\nB. Image Coor:(786, 10), Depth:0.9 meters\nC. Image Coor:(617, 914), Depth:0.9 meters\nD. Image Coor:(242, 762), Depth:0.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005392/000.jpg", + "spar_bench/sample_005392/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5393, + "data_source": "SPAR-Bench", + "question": "Identify the observer's position in the second image relative to the first image. Provide (X, Y) in the image plane and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(842, 307), Depth:0.2 meters\nB. Image Coor:(68, 827), Depth:0.2 meters\nC. Image Coor:(840, 653), Depth:0.3 meters\nD. Image Coor:(824, 990), Depth:0.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005393/000.jpg", + "spar_bench/sample_005393/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5394, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s image-plane position and depth in meters in the first image when considering the viewpoint change between the two images. Select the correct response from the given choices.\nA. Image Coor:(362, 155), Depth:0.7 meters\nB. Image Coor:(94, 610), Depth:0.7 meters\nC. Image Coor:(834, 782), Depth:0.7 meters\nD. Image Coor:(885, 346), Depth:0.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005394/000.jpg", + "spar_bench/sample_005394/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5395, + "data_source": "SPAR-Bench", + "question": "Find the mapped location of the second image\u2019s observer within the first image\u2019s coordinate space. Provide (X, Y) in the image plane and depth in meters. Choose the correct answer from the choices available.\nA. Image Coor:(637, 356), Depth:1.0 meters\nB. Image Coor:(775, 246), Depth:2.1 meters\nC. Image Coor:(251, 9), Depth:1.7 meters\nD. Image Coor:(983, 865), Depth:2.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005395/000.jpg", + "spar_bench/sample_005395/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5396, + "data_source": "SPAR-Bench", + "question": "If the second image\u2019s observer was positioned in the first image\u2019s space, where would they appear? Provide 2D image-plane coordinates and depth in meters. Pick the appropriate option from the choices available.\nA. Image Coor:(634, 760), Depth:2.5 meters\nB. Image Coor:(308, 389), Depth:2.8 meters\nC. Image Coor:(425, 880), Depth:3.2 meters\nD. Image Coor:(343, 904), Depth:3.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005396/000.jpg", + "spar_bench/sample_005396/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5397, + "data_source": "SPAR-Bench", + "question": "In the first image\u2019s coordinate space, where is the observer of the second image located? Provide image-plane coordinates and depth in meters. Choose the appropriate option from the choices provided.\nA. Image Coor:(476, 977), Depth:1.3 meters\nB. Image Coor:(342, 403), Depth:1.0 meters\nC. Image Coor:(689, 659), Depth:1.3 meters\nD. Image Coor:(106, 212), Depth:1.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005397/000.jpg", + "spar_bench/sample_005397/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5398, + "data_source": "SPAR-Bench", + "question": "From the perspective of the first image, where would the observer of the second image appear? Provide image-plane coordinates and depth in meters. Pick the correct option from the choices provided.\nA. Image Coor:(375, 362), Depth:5.4 meters\nB. Image Coor:(939, 748), Depth:5.4 meters\nC. Image Coor:(259, 924), Depth:5.4 meters\nD. Image Coor:(864, 111), Depth:5.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005398/000.jpg", + "spar_bench/sample_005398/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5399, + "data_source": "SPAR-Bench", + "question": "In the coordinate system of the first image, locate the observer from the second image. Provide 2D image-plane coordinates and depth in meters. Choose the right answer from the options available.\nA. Image Coor:(694, 910), Depth:0.9 meters\nB. Image Coor:(343, 5), Depth:1.6 meters\nC. Image Coor:(601, 509), Depth:1.4 meters\nD. Image Coor:(203, 976), Depth:1.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005399/000.jpg", + "spar_bench/sample_005399/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5400, + "data_source": "SPAR-Bench", + "question": "Find the observer\u2019s position in the first image corresponding to where they took the second image. Provide image-plane coordinates and depth in meters. Select the correct response from the given choices.\nA. Image Coor:(526, 970), Depth:1.0 meters\nB. Image Coor:(61, 69), Depth:1.0 meters\nC. Image Coor:(323, 72), Depth:1.0 meters\nD. Image Coor:(835, 755), Depth:1.0 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005400/000.jpg", + "spar_bench/sample_005400/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5401, + "data_source": "SPAR-Bench", + "question": "What are the projected 2D image-plane coordinates and depth (in meters) of the second image\u2019s observer in the first image\u2019s coordinate space? Choose the appropriate option from the choices provided.\nA. Image Coor:(833, 562), Depth:2.1 meters\nB. Image Coor:(485, 602), Depth:2.5 meters\nC. Image Coor:(746, 17), Depth:2.5 meters\nD. Image Coor:(947, 96), Depth:3.7 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005401/000.jpg", + "spar_bench/sample_005401/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5402, + "data_source": "SPAR-Bench", + "question": "How does the camera\u2019s movement between the two images affect its position in the first image? Provide (X, Y) image-plane coordinates and depth in meters. Choose the right response from the choices provided.\nA. Image Coor:(167, 788), Depth:1.5 meters\nB. Image Coor:(290, 579), Depth:1.5 meters\nC. Image Coor:(129, 305), Depth:1.5 meters\nD. Image Coor:(389, 141), Depth:1.5 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005402/000.jpg", + "spar_bench/sample_005402/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5403, + "data_source": "SPAR-Bench", + "question": "Identify the observer\u2019s placement in the first image\u2019s space if they captured the second image. Provide 2D image-plane coordinates and depth in meters. Choose the appropriate answer from the options given.\nA. Image Coor:(743, 699), Depth:2.9 meters\nB. Image Coor:(624, 910), Depth:2.9 meters\nC. Image Coor:(606, 20), Depth:2.9 meters\nD. Image Coor:(802, 800), Depth:2.9 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005403/000.jpg", + "spar_bench/sample_005403/001.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5404, + "data_source": "SPAR-Bench", + "question": "Estimate the image-plane location and depth in meters of the second image\u2019s observer as it appears in the first image\u2019s coordinate space. Select the right response from the available choices.\nA. Image Coor:(138, 532), Depth:2.0 meters\nB. Image Coor:(937, 450), Depth:2.6 meters\nC. Image Coor:(45, 378), Depth:2.4 meters\nD. Image Coor:(70, 856), Depth:3.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005404/000.jpg", + "spar_bench/sample_005404/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5405, + "data_source": "SPAR-Bench", + "question": "How is the observer\u2019s position in the second image represented in the first image? Answer with image-plane coordinates and depth in meters. Please select the correct option from the choices provided.\nA. Image Coor:(810, 603), Depth:2.4 meters\nB. Image Coor:(378, 686), Depth:2.3 meters\nC. Image Coor:(879, 4), Depth:2.2 meters\nD. Image Coor:(575, 207), Depth:2.2 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005405/000.jpg", + "spar_bench/sample_005405/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5406, + "data_source": "SPAR-Bench", + "question": "Where is the observer from the second image when mapped onto the first image\u2019s coordinate system? Provide image-plane coordinates and depth in meters. Choose the correct response from the given choices.\nA. Image Coor:(262, 127), Depth:1.2 meters\nB. Image Coor:(799, 35), Depth:0.8 meters\nC. Image Coor:(279, 830), Depth:0.8 meters\nD. Image Coor:(167, 436), Depth:1.6 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005406/000.jpg", + "spar_bench/sample_005406/001.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5407, + "data_source": "SPAR-Bench", + "question": "Where is the observer from the second image when mapped onto the first image\u2019s coordinate system? Provide image-plane coordinates and depth in meters. Select the appropriate option from the given choices.\nA. Image Coor:(221, 421), Depth:1.3 meters\nB. Image Coor:(571, 410), Depth:1.3 meters\nC. Image Coor:(857, 10), Depth:1.3 meters\nD. Image Coor:(471, 109), Depth:1.3 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005407/000.jpg", + "spar_bench/sample_005407/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5408, + "data_source": "SPAR-Bench", + "question": "Where is the second image\u2019s observer when projected into the first image\u2019s coordinate frame? Provide 2D image-plane coordinates and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(770, 835), Depth:1.4 meters\nB. Image Coor:(140, 923), Depth:1.4 meters\nC. Image Coor:(989, 544), Depth:1.4 meters\nD. Image Coor:(546, 632), Depth:1.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005408/000.jpg", + "spar_bench/sample_005408/001.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5409, + "data_source": "SPAR-Bench", + "question": "How does the position of the observer of the second image translate into the first image\u2019s coordinate system? Provide (X, Y) in the image plane and depth in meters. Pick the right response from the available choices.\nA. Image Coor:(546, 880), Depth:2.4 meters\nB. Image Coor:(799, 515), Depth:2.4 meters\nC. Image Coor:(546, 699), Depth:2.4 meters\nD. Image Coor:(397, 730), Depth:2.4 meters\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005409/000.jpg", + "spar_bench/sample_005409/001.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "camera_motion_infer", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5410, + "data_source": "SPAR-Bench", + "question": "Which point, shoes (green point) or laptop (blue point), is located farther to desk lamp (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. shoes (green point)\nB. laptop (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005410/000.jpg", + "spar_bench/sample_005410/001.jpg", + "spar_bench/sample_005410/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5411, + "data_source": "SPAR-Bench", + "question": "Looking at the three images, identify whether box (green point) or bookshelf (blue point) is closer to the center of bookshelf (red point). Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. bookshelf (blue point)\nB. box (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005411/000.jpg", + "spar_bench/sample_005411/001.jpg", + "spar_bench/sample_005411/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5412, + "data_source": "SPAR-Bench", + "question": "From the three images, decide whether the green point (coffee table) or blue point (armchair) is farther to books (red point). Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. coffee table (green point)\nB. armchair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005412/000.jpg", + "spar_bench/sample_005412/001.jpg", + "spar_bench/sample_005412/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5413, + "data_source": "SPAR-Bench", + "question": "Which point, chair (green point) or chair (blue point), is located farther to chair (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005413/000.jpg", + "spar_bench/sample_005413/001.jpg", + "spar_bench/sample_005413/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5414, + "data_source": "SPAR-Bench", + "question": "From the three images, decide whether the green point (towel) or blue point (mat) is farther to sink (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. towel (green point)\nB. mat (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005414/000.jpg", + "spar_bench/sample_005414/001.jpg", + "spar_bench/sample_005414/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5415, + "data_source": "SPAR-Bench", + "question": "From the center of toilet paper dispenser (red point), which object, bathroom stall door (green point) or toilet seat cover dispenser (blue point), is farther? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. bathroom stall door (green point)\nB. toilet seat cover dispenser (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005415/000.jpg", + "spar_bench/sample_005415/001.jpg", + "spar_bench/sample_005415/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5416, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, chair (green point) or chair (blue point), lies farther to the chair (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005416/000.jpg", + "spar_bench/sample_005416/001.jpg", + "spar_bench/sample_005416/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5417, + "data_source": "SPAR-Bench", + "question": "Which point is located farther from chair (red point) in the three images: bucket (green point) or broom (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. broom (blue point)\nB. bucket (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005417/000.jpg", + "spar_bench/sample_005417/001.jpg", + "spar_bench/sample_005417/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5418, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of monitor (red point), cabinet (green point), and keyboard (blue point). Which is closer to the center of monitor (red point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. keyboard (blue point)\nB. cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005418/000.jpg", + "spar_bench/sample_005418/001.jpg", + "spar_bench/sample_005418/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5419, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of laundry detergent (red point), dryer sheets (green point), and shelf (blue point). Which is closer to the center of laundry detergent (red point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. shelf (blue point)\nB. dryer sheets (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005419/000.jpg", + "spar_bench/sample_005419/001.jpg", + "spar_bench/sample_005419/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5420, + "data_source": "SPAR-Bench", + "question": "Compare the positions of computer tower (green point) and chair (blue point). Which is farther to the chair (red point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. computer tower (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005420/000.jpg", + "spar_bench/sample_005420/001.jpg", + "spar_bench/sample_005420/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5421, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, office chair (green point) or office chair (blue point), is farther to file cabinet (red point) based on the three images? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. office chair (green point)\nB. office chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005421/000.jpg", + "spar_bench/sample_005421/001.jpg", + "spar_bench/sample_005421/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5422, + "data_source": "SPAR-Bench", + "question": "Which point, green point (chair) or blue point (chair), is farther to books (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005422/000.jpg", + "spar_bench/sample_005422/001.jpg", + "spar_bench/sample_005422/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5423, + "data_source": "SPAR-Bench", + "question": "Of the two objects, book (green point) and calendar (blue point), which is closer to pillow (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. book (green point)\nB. calendar (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005423/000.jpg", + "spar_bench/sample_005423/001.jpg", + "spar_bench/sample_005423/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5424, + "data_source": "SPAR-Bench", + "question": "Between table (green point) and chair (blue point), which object is positioned farther to chair (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. table (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005424/000.jpg", + "spar_bench/sample_005424/001.jpg", + "spar_bench/sample_005424/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5425, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and conclude whether window (green point) or cabinet (blue point) is closer to jacket (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. window (green point)\nB. cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005425/000.jpg", + "spar_bench/sample_005425/001.jpg", + "spar_bench/sample_005425/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5426, + "data_source": "SPAR-Bench", + "question": "For the points labeled chair (green point), and chair (blue point), determine which is farther to chair (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005426/000.jpg", + "spar_bench/sample_005426/001.jpg", + "spar_bench/sample_005426/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5427, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and conclude whether toilet (green point) or toilet flush button (blue point) is farther to toilet paper (red point). Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. toilet (green point)\nB. toilet flush button (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005427/000.jpg", + "spar_bench/sample_005427/001.jpg", + "spar_bench/sample_005427/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5428, + "data_source": "SPAR-Bench", + "question": "Looking at breakfast bar (red point), kitchen island (green point), and window (blue point), which is closer to breakfast bar (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. window (blue point)\nB. kitchen island (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005428/000.jpg", + "spar_bench/sample_005428/001.jpg", + "spar_bench/sample_005428/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5429, + "data_source": "SPAR-Bench", + "question": "In the three images, which is farther to the center of picture (red point): stair rail (green point) or picture (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. picture (blue point)\nB. stair rail (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005429/000.jpg", + "spar_bench/sample_005429/001.jpg", + "spar_bench/sample_005429/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5430, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if lamp (green point) or bag (blue point) is farther to radiator (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. lamp (green point)\nB. bag (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005430/000.jpg", + "spar_bench/sample_005430/001.jpg", + "spar_bench/sample_005430/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5431, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of table (red point), chair (green point), and chair (blue point). Which is farther to the center of table (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005431/000.jpg", + "spar_bench/sample_005431/001.jpg", + "spar_bench/sample_005431/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5432, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is box (green point) or window (blue point) farther to folded table (red point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. box (green point)\nB. window (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005432/000.jpg", + "spar_bench/sample_005432/001.jpg", + "spar_bench/sample_005432/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5433, + "data_source": "SPAR-Bench", + "question": "Between refrigerator (green point) and sink (blue point), which object is positioned farther to breakfast bar (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. refrigerator (green point)\nB. sink (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005433/000.jpg", + "spar_bench/sample_005433/001.jpg", + "spar_bench/sample_005433/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5434, + "data_source": "SPAR-Bench", + "question": "For the points labeled backpack (green point), and shoes (blue point), determine which is farther to box (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. shoes (blue point)\nB. backpack (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005434/000.jpg", + "spar_bench/sample_005434/001.jpg", + "spar_bench/sample_005434/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5435, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the three images. Is chair (green point) or chair (blue point) positioned farther to radiator (red point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005435/000.jpg", + "spar_bench/sample_005435/001.jpg", + "spar_bench/sample_005435/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5436, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (ping pong table) or the blue point (picture) is closer to table (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. ping pong table (green point)\nB. picture (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005436/000.jpg", + "spar_bench/sample_005436/001.jpg", + "spar_bench/sample_005436/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5437, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is farther to towel (red point): shower curtain (green point) or picture (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. shower curtain (green point)\nB. picture (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005437/000.jpg", + "spar_bench/sample_005437/001.jpg", + "spar_bench/sample_005437/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5438, + "data_source": "SPAR-Bench", + "question": "Which point, green point (clock) or blue point (chair), is closer to office chair (red point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. chair (blue point)\nB. clock (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005438/000.jpg", + "spar_bench/sample_005438/001.jpg", + "spar_bench/sample_005438/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5439, + "data_source": "SPAR-Bench", + "question": "In the displayed three images, which object is farther to couch (red point): table (green point) or kitchen counter (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. kitchen counter (blue point)\nB. table (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005439/000.jpg", + "spar_bench/sample_005439/001.jpg", + "spar_bench/sample_005439/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5440, + "data_source": "SPAR-Bench", + "question": "From cabinet (red point), is shelf (green point) or curtain (blue point) situated at a farther distance? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. shelf (green point)\nB. curtain (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005440/000.jpg", + "spar_bench/sample_005440/001.jpg", + "spar_bench/sample_005440/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5441, + "data_source": "SPAR-Bench", + "question": "Which point is located farther from chair (red point) in the three images: bed (green point) or shelf (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. bed (green point)\nB. shelf (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005441/000.jpg", + "spar_bench/sample_005441/001.jpg", + "spar_bench/sample_005441/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5442, + "data_source": "SPAR-Bench", + "question": "For the points labeled office chair (green point), and office chair (blue point), determine which is farther to office chair (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. office chair (green point)\nB. office chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005442/000.jpg", + "spar_bench/sample_005442/001.jpg", + "spar_bench/sample_005442/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5443, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies farther to bathroom stall door (red point): bathroom stall door (green point) or toilet seat cover dispenser (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. toilet seat cover dispenser (blue point)\nB. bathroom stall door (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005443/000.jpg", + "spar_bench/sample_005443/001.jpg", + "spar_bench/sample_005443/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5444, + "data_source": "SPAR-Bench", + "question": "Based on the three images, is table (green point) or bookshelf (blue point) farther to book (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. table (green point)\nB. bookshelf (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005444/000.jpg", + "spar_bench/sample_005444/001.jpg", + "spar_bench/sample_005444/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5445, + "data_source": "SPAR-Bench", + "question": "In the displayed three images, which object is farther to end table (red point): couch (green point) or coffee table (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. couch (green point)\nB. coffee table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005445/000.jpg", + "spar_bench/sample_005445/001.jpg", + "spar_bench/sample_005445/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5446, + "data_source": "SPAR-Bench", + "question": "Which object lies at a farther distance from computer tower (red point): telephone (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. chair (blue point)\nB. telephone (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005446/000.jpg", + "spar_bench/sample_005446/001.jpg", + "spar_bench/sample_005446/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5447, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is farther to instrument case (red point): dresser (green point) or case of water bottles (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. case of water bottles (blue point)\nB. dresser (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005447/000.jpg", + "spar_bench/sample_005447/001.jpg", + "spar_bench/sample_005447/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5448, + "data_source": "SPAR-Bench", + "question": "From the center of projector screen (red point), which object, whiteboard (green point) or chair (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. chair (blue point)\nB. whiteboard (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005448/000.jpg", + "spar_bench/sample_005448/001.jpg", + "spar_bench/sample_005448/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5449, + "data_source": "SPAR-Bench", + "question": "In the three images, which is farther to the center of shelf (red point): closet wall (green point) or bed (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. closet wall (green point)\nB. bed (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005449/000.jpg", + "spar_bench/sample_005449/001.jpg", + "spar_bench/sample_005449/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5450, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is farther to bench (red point): box (green point) or whiteboard (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. box (green point)\nB. whiteboard (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005450/000.jpg", + "spar_bench/sample_005450/001.jpg", + "spar_bench/sample_005450/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5451, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, laundry detergent (green point) or vending machine (blue point), lies closer to the trash can (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. vending machine (blue point)\nB. laundry detergent (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005451/000.jpg", + "spar_bench/sample_005451/001.jpg", + "spar_bench/sample_005451/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5452, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and decide whether office chair (green point) or office chair (blue point) is closer to the center of table (red point). Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. office chair (blue point)\nB. office chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005452/000.jpg", + "spar_bench/sample_005452/001.jpg", + "spar_bench/sample_005452/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5453, + "data_source": "SPAR-Bench", + "question": "Which of the two points, chair (green point) or coffee table (blue point), is closer from coffee table (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. chair (green point)\nB. coffee table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005453/000.jpg", + "spar_bench/sample_005453/001.jpg", + "spar_bench/sample_005453/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5454, + "data_source": "SPAR-Bench", + "question": "Looking at the three images, identify whether sofa chair (green point) or chair (blue point) is farther to the center of ottoman (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. chair (blue point)\nB. sofa chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005454/000.jpg", + "spar_bench/sample_005454/001.jpg", + "spar_bench/sample_005454/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5455, + "data_source": "SPAR-Bench", + "question": "Which of the two points, sink (green point) or soap dispenser (blue point), is closer from backpack (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. sink (green point)\nB. soap dispenser (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005455/000.jpg", + "spar_bench/sample_005455/001.jpg", + "spar_bench/sample_005455/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5456, + "data_source": "SPAR-Bench", + "question": "Which of the two points, shelf (green point) or desk (blue point), is closer from backpack (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. desk (blue point)\nB. shelf (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005456/000.jpg", + "spar_bench/sample_005456/001.jpg", + "spar_bench/sample_005456/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5457, + "data_source": "SPAR-Bench", + "question": "Of the two objects, armchair (green point) and coffee table (blue point), which is closer to lamp (red point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. armchair (green point)\nB. coffee table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005457/000.jpg", + "spar_bench/sample_005457/001.jpg", + "spar_bench/sample_005457/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5458, + "data_source": "SPAR-Bench", + "question": "Looking at laundry hamper (red point), chair (green point), and desk (blue point), which is closer to laundry hamper (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. desk (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005458/000.jpg", + "spar_bench/sample_005458/001.jpg", + "spar_bench/sample_005458/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5459, + "data_source": "SPAR-Bench", + "question": "In relation to bookshelf (red point), which of the two objects is farther: pillow (green point) or picture (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. picture (blue point)\nB. pillow (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005459/000.jpg", + "spar_bench/sample_005459/001.jpg", + "spar_bench/sample_005459/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5460, + "data_source": "SPAR-Bench", + "question": "Looking at the positions of folded ladder (red point), chair (green point), and box (blue point), which is closer to folded ladder? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. box (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005460/000.jpg", + "spar_bench/sample_005460/001.jpg", + "spar_bench/sample_005460/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5461, + "data_source": "SPAR-Bench", + "question": "Considering distances to monitor (red point), which object is closer: pillow (green point) or plant (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. pillow (green point)\nB. plant (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005461/000.jpg", + "spar_bench/sample_005461/001.jpg", + "spar_bench/sample_005461/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5462, + "data_source": "SPAR-Bench", + "question": "Based on the three images, is picture (green point) or ceiling light (blue point) farther to laundry basket (red point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. ceiling light (blue point)\nB. picture (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005462/000.jpg", + "spar_bench/sample_005462/001.jpg", + "spar_bench/sample_005462/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5463, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and conclude whether chair (green point) or chair (blue point) is closer to chair (red point). Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005463/000.jpg", + "spar_bench/sample_005463/001.jpg", + "spar_bench/sample_005463/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5464, + "data_source": "SPAR-Bench", + "question": "Which object lies at a farther distance from backpack (red point): chair (green point) or trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. chair (green point)\nB. trash can (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005464/000.jpg", + "spar_bench/sample_005464/001.jpg", + "spar_bench/sample_005464/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5465, + "data_source": "SPAR-Bench", + "question": "Looking at the three images, identify whether box (green point) or mailbox (blue point) is farther to the center of boxes (red point). Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. mailbox (blue point)\nB. box (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005465/000.jpg", + "spar_bench/sample_005465/001.jpg", + "spar_bench/sample_005465/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5466, + "data_source": "SPAR-Bench", + "question": "Which of the two points, armchair (green point) or armchair (blue point), is farther from armchair (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. armchair (green point)\nB. armchair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005466/000.jpg", + "spar_bench/sample_005466/001.jpg", + "spar_bench/sample_005466/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5467, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if book (green point) or backpack (blue point) is farther to picture (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. backpack (blue point)\nB. book (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005467/000.jpg", + "spar_bench/sample_005467/001.jpg", + "spar_bench/sample_005467/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5468, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, pillow (green point) or lamp (blue point), lies closer to the armchair (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. pillow (green point)\nB. lamp (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005468/000.jpg", + "spar_bench/sample_005468/001.jpg", + "spar_bench/sample_005468/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5469, + "data_source": "SPAR-Bench", + "question": "In the three images, which object is farther to table (red point): chair (green point) or mirror (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. chair (green point)\nB. mirror (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005469/000.jpg", + "spar_bench/sample_005469/001.jpg", + "spar_bench/sample_005469/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5470, + "data_source": "SPAR-Bench", + "question": "Identify the object that is spatially farther to bench (red point): the green pointpillar or the blue pointpillar. Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. pillar (blue point)\nB. pillar (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005470/000.jpg", + "spar_bench/sample_005470/001.jpg", + "spar_bench/sample_005470/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5471, + "data_source": "SPAR-Bench", + "question": "Which point is located closer from laundry hamper (red point) in the three images: lamp (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. chair (blue point)\nB. lamp (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005471/000.jpg", + "spar_bench/sample_005471/001.jpg", + "spar_bench/sample_005471/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5472, + "data_source": "SPAR-Bench", + "question": "In this comparison, is keyboard (green point) or monitor (blue point) closer to the red point, couch? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. monitor (blue point)\nB. keyboard (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005472/000.jpg", + "spar_bench/sample_005472/001.jpg", + "spar_bench/sample_005472/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5473, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of dresser (red point), instrument case (green point), and folded ladder (blue point). Which is farther to the center of dresser (red point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. folded ladder (blue point)\nB. instrument case (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005473/000.jpg", + "spar_bench/sample_005473/001.jpg", + "spar_bench/sample_005473/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5474, + "data_source": "SPAR-Bench", + "question": "Between books (green point) and chair (blue point), which object is positioned farther to box (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. chair (blue point)\nB. books (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005474/000.jpg", + "spar_bench/sample_005474/001.jpg", + "spar_bench/sample_005474/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5475, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is chair (green point) or chair (blue point) farther to chair (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005475/000.jpg", + "spar_bench/sample_005475/001.jpg", + "spar_bench/sample_005475/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5476, + "data_source": "SPAR-Bench", + "question": "In this comparison, is towel (green point) or toilet (blue point) farther to the red point, toilet paper? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. towel (green point)\nB. toilet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005476/000.jpg", + "spar_bench/sample_005476/001.jpg", + "spar_bench/sample_005476/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5477, + "data_source": "SPAR-Bench", + "question": "In the three images, which is farther to the center of step stool (red point): table (green point) or table (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. table (blue point)\nB. table (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005477/000.jpg", + "spar_bench/sample_005477/001.jpg", + "spar_bench/sample_005477/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5478, + "data_source": "SPAR-Bench", + "question": "From the perspective of broom (red point), which object is farther, copier (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. chair (blue point)\nB. copier (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005478/000.jpg", + "spar_bench/sample_005478/001.jpg", + "spar_bench/sample_005478/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5479, + "data_source": "SPAR-Bench", + "question": "Looking at monitor (red point), office chair (green point), and chair (blue point), which is farther to monitor (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. office chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005479/000.jpg", + "spar_bench/sample_005479/001.jpg", + "spar_bench/sample_005479/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5480, + "data_source": "SPAR-Bench", + "question": "Looking at water cooler (red point), cart (green point), and cart (blue point), which is closer to water cooler (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. cart (green point)\nB. cart (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005480/000.jpg", + "spar_bench/sample_005480/001.jpg", + "spar_bench/sample_005480/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5481, + "data_source": "SPAR-Bench", + "question": "Looking at chair (red point), chair (green point), and chair (blue point), which is farther to chair (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005481/000.jpg", + "spar_bench/sample_005481/001.jpg", + "spar_bench/sample_005481/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5482, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the three images. Is plant (green point) or pillow (blue point) positioned farther to picture (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. pillow (blue point)\nB. plant (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005482/000.jpg", + "spar_bench/sample_005482/001.jpg", + "spar_bench/sample_005482/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5483, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (couch) or the blue point (chair) is farther to chair (red point). Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. chair (blue point)\nB. couch (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005483/000.jpg", + "spar_bench/sample_005483/001.jpg", + "spar_bench/sample_005483/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5484, + "data_source": "SPAR-Bench", + "question": "Between telephone (green point) and paper towel dispenser (blue point), which object is positioned closer to trash can (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. telephone (green point)\nB. paper towel dispenser (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005484/000.jpg", + "spar_bench/sample_005484/001.jpg", + "spar_bench/sample_005484/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5485, + "data_source": "SPAR-Bench", + "question": "In the context of the three images, which point is farther to the center of container (red point): bathtub (green point) or toilet (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. toilet (blue point)\nB. bathtub (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005485/000.jpg", + "spar_bench/sample_005485/001.jpg", + "spar_bench/sample_005485/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5486, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is chair (green point) or chair (blue point) closer to table (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005486/000.jpg", + "spar_bench/sample_005486/001.jpg", + "spar_bench/sample_005486/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5487, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, dresser (green point) or laundry hamper (blue point), is farther to pillow (red point) based on the three images? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. laundry hamper (blue point)\nB. dresser (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005487/000.jpg", + "spar_bench/sample_005487/001.jpg", + "spar_bench/sample_005487/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5488, + "data_source": "SPAR-Bench", + "question": "In the context of the three images, which point is farther to the center of table (red point): table (green point) or ping pong table (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. ping pong table (blue point)\nB. table (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005488/000.jpg", + "spar_bench/sample_005488/001.jpg", + "spar_bench/sample_005488/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5489, + "data_source": "SPAR-Bench", + "question": "Looking at pillow (red point), pillow (green point), and ottoman (blue point), which is closer to pillow (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. ottoman (blue point)\nB. pillow (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005489/000.jpg", + "spar_bench/sample_005489/001.jpg", + "spar_bench/sample_005489/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5490, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies closer to curtain (red point): ottoman (green point) or pillow (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. pillow (blue point)\nB. ottoman (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005490/000.jpg", + "spar_bench/sample_005490/001.jpg", + "spar_bench/sample_005490/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5491, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, shelf (green point) or chair (blue point), lies closer to the shelf (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. shelf (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005491/000.jpg", + "spar_bench/sample_005491/001.jpg", + "spar_bench/sample_005491/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5492, + "data_source": "SPAR-Bench", + "question": "In the visual provided, which object is farther to washcloth (red point): cup (green point) or toilet (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. cup (green point)\nB. toilet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005492/000.jpg", + "spar_bench/sample_005492/001.jpg", + "spar_bench/sample_005492/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5493, + "data_source": "SPAR-Bench", + "question": "In this comparison, is window (green point) or toilet (blue point) farther to the red point, bottle? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. toilet (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005493/000.jpg", + "spar_bench/sample_005493/001.jpg", + "spar_bench/sample_005493/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5494, + "data_source": "SPAR-Bench", + "question": "In this comparison, is pillow (green point) or nightstand (blue point) closer to the red point, chair? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. pillow (green point)\nB. nightstand (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005494/000.jpg", + "spar_bench/sample_005494/001.jpg", + "spar_bench/sample_005494/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5495, + "data_source": "SPAR-Bench", + "question": "From the three images, decide whether the green point (book) or blue point (monitor) is closer to monitor (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. monitor (blue point)\nB. book (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005495/000.jpg", + "spar_bench/sample_005495/001.jpg", + "spar_bench/sample_005495/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5496, + "data_source": "SPAR-Bench", + "question": "In this comparison, is piano bench (green point) or toolbox (blue point) closer to the red point, piano? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. piano bench (green point)\nB. toolbox (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005496/000.jpg", + "spar_bench/sample_005496/001.jpg", + "spar_bench/sample_005496/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5497, + "data_source": "SPAR-Bench", + "question": "From the three images, decide whether the green point (office chair) or blue point (window) is farther to office chair (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. office chair (green point)\nB. window (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005497/000.jpg", + "spar_bench/sample_005497/001.jpg", + "spar_bench/sample_005497/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5498, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if coffee table (green point) or armchair (blue point) is closer to lamp (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. coffee table (green point)\nB. armchair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005498/000.jpg", + "spar_bench/sample_005498/001.jpg", + "spar_bench/sample_005498/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5499, + "data_source": "SPAR-Bench", + "question": "Determine which object, stool (green point) or stool (blue point), is positioned farther from ping pong table (red point) in the three images. Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. stool (blue point)\nB. stool (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005499/000.jpg", + "spar_bench/sample_005499/001.jpg", + "spar_bench/sample_005499/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5500, + "data_source": "SPAR-Bench", + "question": "From instrument case (red point), is tv (green point) or box (blue point) situated at a closer distance? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. box (blue point)\nB. tv (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005500/000.jpg", + "spar_bench/sample_005500/001.jpg", + "spar_bench/sample_005500/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5501, + "data_source": "SPAR-Bench", + "question": "Between the green point chair and blue points chair, which lies closer to the red point chair? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005501/000.jpg", + "spar_bench/sample_005501/001.jpg", + "spar_bench/sample_005501/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5502, + "data_source": "SPAR-Bench", + "question": "Between the green point sink and blue points toilet, which lies closer to the red point toilet paper? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. toilet (blue point)\nB. sink (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005502/000.jpg", + "spar_bench/sample_005502/001.jpg", + "spar_bench/sample_005502/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5503, + "data_source": "SPAR-Bench", + "question": "In the visual provided, which object is farther to chair (red point): chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005503/000.jpg", + "spar_bench/sample_005503/001.jpg", + "spar_bench/sample_005503/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5504, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and conclude whether window (green point) or whiteboard (blue point) is farther to chair (red point). Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. whiteboard (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005504/000.jpg", + "spar_bench/sample_005504/001.jpg", + "spar_bench/sample_005504/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5505, + "data_source": "SPAR-Bench", + "question": "In the visual provided, which object is closer to washcloth (red point): cup (green point) or toilet (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. toilet (blue point)\nB. cup (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005505/000.jpg", + "spar_bench/sample_005505/001.jpg", + "spar_bench/sample_005505/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5506, + "data_source": "SPAR-Bench", + "question": "Which point is located closer from case of water bottles (red point) in the three images: bin (green point) or plant (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. plant (blue point)\nB. bin (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005506/000.jpg", + "spar_bench/sample_005506/001.jpg", + "spar_bench/sample_005506/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5507, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (paper towel dispenser) or the blue point (rail) is closer to toilet paper rolls (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. rail (blue point)\nB. paper towel dispenser (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005507/000.jpg", + "spar_bench/sample_005507/001.jpg", + "spar_bench/sample_005507/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5508, + "data_source": "SPAR-Bench", + "question": "In the context of the three images, which point is closer to the center of shelf (red point): chair (green point) or power outlet (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. chair (green point)\nB. power outlet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005508/000.jpg", + "spar_bench/sample_005508/001.jpg", + "spar_bench/sample_005508/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5509, + "data_source": "SPAR-Bench", + "question": "Which object is spatially closer to refrigerator (red point): stove (green point) or kitchen cabinets (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. kitchen cabinets (blue point)\nB. stove (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005509/000.jpg", + "spar_bench/sample_005509/001.jpg", + "spar_bench/sample_005509/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5510, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is toilet (green point) or sink (blue point) closer to bathroom stall door (red point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. toilet (green point)\nB. sink (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005510/000.jpg", + "spar_bench/sample_005510/001.jpg", + "spar_bench/sample_005510/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5511, + "data_source": "SPAR-Bench", + "question": "Identify the object that is spatially closer to salt (red point): the green pointkitchen cabinet or the blue pointstove. Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. kitchen cabinet (green point)\nB. stove (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005511/000.jpg", + "spar_bench/sample_005511/001.jpg", + "spar_bench/sample_005511/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5512, + "data_source": "SPAR-Bench", + "question": "From the three images, decide whether the green point (shoe rack) or blue point (shelf) is closer to box (red point). Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. shoe rack (green point)\nB. shelf (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005512/000.jpg", + "spar_bench/sample_005512/001.jpg", + "spar_bench/sample_005512/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5513, + "data_source": "SPAR-Bench", + "question": "From the perspective of cabinet (red point), which object is closer, window (green point) or pillow (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. pillow (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005513/000.jpg", + "spar_bench/sample_005513/001.jpg", + "spar_bench/sample_005513/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5514, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is farther to bathroom stall door (red point): sink (green point) or trash bin (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. sink (green point)\nB. trash bin (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005514/000.jpg", + "spar_bench/sample_005514/001.jpg", + "spar_bench/sample_005514/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5515, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and decide whether suitcase (green point) or lamp (blue point) is farther to the center of pillow (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. suitcase (green point)\nB. lamp (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005515/000.jpg", + "spar_bench/sample_005515/001.jpg", + "spar_bench/sample_005515/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5516, + "data_source": "SPAR-Bench", + "question": "In the three images, which object is farther to kitchen cabinet (red point): kitchen cabinets (green point) or refrigerator (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. kitchen cabinets (green point)\nB. refrigerator (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005516/000.jpg", + "spar_bench/sample_005516/001.jpg", + "spar_bench/sample_005516/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5517, + "data_source": "SPAR-Bench", + "question": "Which object appears to be closer to shelf (red point) in the three images, towel (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. cabinet (blue point)\nB. towel (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005517/000.jpg", + "spar_bench/sample_005517/001.jpg", + "spar_bench/sample_005517/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5518, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (trash bin) or the blue point (rail) is farther to rail (red point). Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. rail (blue point)\nB. trash bin (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005518/000.jpg", + "spar_bench/sample_005518/001.jpg", + "spar_bench/sample_005518/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5519, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is closer to picture (red point): bottle (green point) or trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. bottle (green point)\nB. trash can (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005519/000.jpg", + "spar_bench/sample_005519/001.jpg", + "spar_bench/sample_005519/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5520, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if paper cutter (green point) or paper (blue point) is closer to box (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. paper (blue point)\nB. paper cutter (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005520/000.jpg", + "spar_bench/sample_005520/001.jpg", + "spar_bench/sample_005520/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5521, + "data_source": "SPAR-Bench", + "question": "Compare the positions of armchair (green point) and fireplace (blue point). Which is closer to the windowsill (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. fireplace (blue point)\nB. armchair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005521/000.jpg", + "spar_bench/sample_005521/001.jpg", + "spar_bench/sample_005521/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5522, + "data_source": "SPAR-Bench", + "question": "In relation to bar (red point), which of the two objects is farther: sink (green point) or mirror (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. mirror (blue point)\nB. sink (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005522/000.jpg", + "spar_bench/sample_005522/001.jpg", + "spar_bench/sample_005522/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5523, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and decide whether boiler (green point) or chair (blue point) is closer to the center of shelf (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. boiler (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005523/000.jpg", + "spar_bench/sample_005523/001.jpg", + "spar_bench/sample_005523/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5524, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and decide whether chair (green point) or shelf (blue point) is closer to the center of window (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. chair (green point)\nB. shelf (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005524/000.jpg", + "spar_bench/sample_005524/001.jpg", + "spar_bench/sample_005524/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5525, + "data_source": "SPAR-Bench", + "question": "Which object lies at a farther distance from divider (red point): backpack (green point) or trash can (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. trash can (blue point)\nB. backpack (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005525/000.jpg", + "spar_bench/sample_005525/001.jpg", + "spar_bench/sample_005525/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5526, + "data_source": "SPAR-Bench", + "question": "Identify the object that is farther to the red point chair (red point): chair (green point) (green) or seating (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. chair (green point)\nB. seating (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005526/000.jpg", + "spar_bench/sample_005526/001.jpg", + "spar_bench/sample_005526/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5527, + "data_source": "SPAR-Bench", + "question": "Based on the three images, is pipe (green point) or recycling bin (blue point) closer to desk (red point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. pipe (green point)\nB. recycling bin (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005527/000.jpg", + "spar_bench/sample_005527/001.jpg", + "spar_bench/sample_005527/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5528, + "data_source": "SPAR-Bench", + "question": "Identify the object that is farther to the red point bed (red point): bag (green point) (green) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. bag (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005528/000.jpg", + "spar_bench/sample_005528/001.jpg", + "spar_bench/sample_005528/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5529, + "data_source": "SPAR-Bench", + "question": "Considering distances to chair (red point), which object is closer: telephone (green point) or bag (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. telephone (green point)\nB. bag (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005529/000.jpg", + "spar_bench/sample_005529/001.jpg", + "spar_bench/sample_005529/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5530, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies closer to chair (red point): table (green point) or table (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. table (green point)\nB. table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005530/000.jpg", + "spar_bench/sample_005530/001.jpg", + "spar_bench/sample_005530/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5531, + "data_source": "SPAR-Bench", + "question": "From the center of backpack (red point), which object, backpack (green point) or trash can (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. backpack (green point)\nB. trash can (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005531/000.jpg", + "spar_bench/sample_005531/001.jpg", + "spar_bench/sample_005531/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5532, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and conclude whether shelf (green point) or stair rail (blue point) is farther to stair rail (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. stair rail (blue point)\nB. shelf (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005532/000.jpg", + "spar_bench/sample_005532/001.jpg", + "spar_bench/sample_005532/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5533, + "data_source": "SPAR-Bench", + "question": "Between armchair (green point) and armchair (blue point), which is positioned closer to armchair (red point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. armchair (green point)\nB. armchair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005533/000.jpg", + "spar_bench/sample_005533/001.jpg", + "spar_bench/sample_005533/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5534, + "data_source": "SPAR-Bench", + "question": "Which object lies at a farther distance from rope (red point): trash can (green point) or tissue box (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. tissue box (blue point)\nB. trash can (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005534/000.jpg", + "spar_bench/sample_005534/001.jpg", + "spar_bench/sample_005534/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5535, + "data_source": "SPAR-Bench", + "question": "From the red point chair, which object, chair (green point) or chair (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005535/000.jpg", + "spar_bench/sample_005535/001.jpg", + "spar_bench/sample_005535/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5536, + "data_source": "SPAR-Bench", + "question": "Which object appears to be closer to table (red point) in the three images, table (green point) or cart (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. cart (blue point)\nB. table (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005536/000.jpg", + "spar_bench/sample_005536/001.jpg", + "spar_bench/sample_005536/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5537, + "data_source": "SPAR-Bench", + "question": "Considering the reference pillow (red point), which object, suitcase (green point) or bed (blue point), is farther? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. suitcase (green point)\nB. bed (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005537/000.jpg", + "spar_bench/sample_005537/001.jpg", + "spar_bench/sample_005537/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5538, + "data_source": "SPAR-Bench", + "question": "In the three images, which is farther to the center of picture (red point): couch (green point) or book (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. couch (green point)\nB. book (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005538/000.jpg", + "spar_bench/sample_005538/001.jpg", + "spar_bench/sample_005538/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5539, + "data_source": "SPAR-Bench", + "question": "Relative to stapler (red point), which object lies closer, recycling bin (green point) or cabinets (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. recycling bin (green point)\nB. cabinets (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005539/000.jpg", + "spar_bench/sample_005539/001.jpg", + "spar_bench/sample_005539/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5540, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, armchair (green point) or table (blue point), lies closer to the ottoman (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. table (blue point)\nB. armchair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005540/000.jpg", + "spar_bench/sample_005540/001.jpg", + "spar_bench/sample_005540/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5541, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if plant (green point) or toaster oven (blue point) is closer to paper towel roll (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. plant (green point)\nB. toaster oven (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005541/000.jpg", + "spar_bench/sample_005541/001.jpg", + "spar_bench/sample_005541/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5542, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and decide whether backpack (green point) or coffee table (blue point) is closer to the center of couch (red point). Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. backpack (green point)\nB. coffee table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005542/000.jpg", + "spar_bench/sample_005542/001.jpg", + "spar_bench/sample_005542/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5543, + "data_source": "SPAR-Bench", + "question": "In the visual provided, which object is closer to person (red point): shelf (green point) or footrest (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. footrest (blue point)\nB. shelf (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005543/000.jpg", + "spar_bench/sample_005543/001.jpg", + "spar_bench/sample_005543/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5544, + "data_source": "SPAR-Bench", + "question": "Which object is spatially closer to monitor (red point): backpack (green point) or desk (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. backpack (green point)\nB. desk (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005544/000.jpg", + "spar_bench/sample_005544/001.jpg", + "spar_bench/sample_005544/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5545, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is closer to chair (red point): window (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. window (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005545/000.jpg", + "spar_bench/sample_005545/001.jpg", + "spar_bench/sample_005545/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5546, + "data_source": "SPAR-Bench", + "question": "Compare the positions of oven (green point) and chair (blue point). Which is farther to the chair (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. oven (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005546/000.jpg", + "spar_bench/sample_005546/001.jpg", + "spar_bench/sample_005546/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5547, + "data_source": "SPAR-Bench", + "question": "Considering the reference refrigerator (red point), which object, dish rack (green point) or paper towel roll (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. dish rack (green point)\nB. paper towel roll (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005547/000.jpg", + "spar_bench/sample_005547/001.jpg", + "spar_bench/sample_005547/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5548, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the three images. Is mat (green point) or mirror (blue point) positioned farther to window (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. mirror (blue point)\nB. mat (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005548/000.jpg", + "spar_bench/sample_005548/001.jpg", + "spar_bench/sample_005548/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5549, + "data_source": "SPAR-Bench", + "question": "Considering the reference cosmetic bag (red point), which object, picture (green point) or pillow (blue point), is farther? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. picture (green point)\nB. pillow (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005549/000.jpg", + "spar_bench/sample_005549/001.jpg", + "spar_bench/sample_005549/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5550, + "data_source": "SPAR-Bench", + "question": "Between chair (green point) and display case (blue point), which is positioned farther to chair (red point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. chair (green point)\nB. display case (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005550/000.jpg", + "spar_bench/sample_005550/001.jpg", + "spar_bench/sample_005550/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5551, + "data_source": "SPAR-Bench", + "question": "In the visual provided, which object is farther to bed (red point): shelf (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. shelf (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005551/000.jpg", + "spar_bench/sample_005551/001.jpg", + "spar_bench/sample_005551/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5552, + "data_source": "SPAR-Bench", + "question": "Which object has a farther proximity to the red point chair: bucket (green point) or boiler (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. boiler (blue point)\nB. bucket (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005552/000.jpg", + "spar_bench/sample_005552/001.jpg", + "spar_bench/sample_005552/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5553, + "data_source": "SPAR-Bench", + "question": "Considering distances to refrigerator (red point), which object is farther: cabinet (green point) or dishwasher (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. cabinet (green point)\nB. dishwasher (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005553/000.jpg", + "spar_bench/sample_005553/001.jpg", + "spar_bench/sample_005553/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5554, + "data_source": "SPAR-Bench", + "question": "From the perspective of table (red point), which object is farther, couch (green point) or whiteboard (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. whiteboard (blue point)\nB. couch (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005554/000.jpg", + "spar_bench/sample_005554/001.jpg", + "spar_bench/sample_005554/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5555, + "data_source": "SPAR-Bench", + "question": "In the provided three images, which is closer to shelf (red point): board (green point) or shelf (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. shelf (blue point)\nB. board (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005555/000.jpg", + "spar_bench/sample_005555/001.jpg", + "spar_bench/sample_005555/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5556, + "data_source": "SPAR-Bench", + "question": "Which object lies at a closer distance from shelf (red point): chair (green point) or monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. chair (green point)\nB. monitor (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005556/000.jpg", + "spar_bench/sample_005556/001.jpg", + "spar_bench/sample_005556/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5557, + "data_source": "SPAR-Bench", + "question": "In this comparison, is kitchen cabinets (green point) or oven (blue point) farther to the red point, refrigerator? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. oven (blue point)\nB. kitchen cabinets (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005557/000.jpg", + "spar_bench/sample_005557/001.jpg", + "spar_bench/sample_005557/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5558, + "data_source": "SPAR-Bench", + "question": "In the context of the three images, which point is closer to the center of bathtub (red point): towel (green point) or toilet paper (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. toilet paper (blue point)\nB. towel (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005558/000.jpg", + "spar_bench/sample_005558/001.jpg", + "spar_bench/sample_005558/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5559, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is closer to copier (red point): trash can (green point) or bucket (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. bucket (blue point)\nB. trash can (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005559/000.jpg", + "spar_bench/sample_005559/001.jpg", + "spar_bench/sample_005559/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5560, + "data_source": "SPAR-Bench", + "question": "Between office chair (green point) and office chair (blue point), which object is positioned closer to office chair (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. office chair (blue point)\nB. office chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005560/000.jpg", + "spar_bench/sample_005560/001.jpg", + "spar_bench/sample_005560/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5561, + "data_source": "SPAR-Bench", + "question": "From the perspective of toilet (red point), which object is farther, rail (green point) or trash bin (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. rail (green point)\nB. trash bin (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005561/000.jpg", + "spar_bench/sample_005561/001.jpg", + "spar_bench/sample_005561/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5562, + "data_source": "SPAR-Bench", + "question": "In the three images, which is farther to the center of kitchen cabinet (red point): refrigerator (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. refrigerator (green point)\nB. cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005562/000.jpg", + "spar_bench/sample_005562/001.jpg", + "spar_bench/sample_005562/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5563, + "data_source": "SPAR-Bench", + "question": "In the context of the three images, which point is farther to the center of case of water bottles (red point): chair (green point) or desk (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. desk (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005563/000.jpg", + "spar_bench/sample_005563/001.jpg", + "spar_bench/sample_005563/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5564, + "data_source": "SPAR-Bench", + "question": "In the displayed three images, which object is closer to curtain (red point): chair (green point) or pillow (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. chair (green point)\nB. pillow (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005564/000.jpg", + "spar_bench/sample_005564/001.jpg", + "spar_bench/sample_005564/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5565, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is farther to bag (red point): plastic containers (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. chair (blue point)\nB. plastic containers (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005565/000.jpg", + "spar_bench/sample_005565/001.jpg", + "spar_bench/sample_005565/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5566, + "data_source": "SPAR-Bench", + "question": "Between the green point chair and blue points compost bin, which lies farther to the red point shelf? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. chair (green point)\nB. compost bin (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005566/000.jpg", + "spar_bench/sample_005566/001.jpg", + "spar_bench/sample_005566/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5567, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and conclude whether toilet (green point) or trash can (blue point) is farther to sink (red point). Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. trash can (blue point)\nB. toilet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005567/000.jpg", + "spar_bench/sample_005567/001.jpg", + "spar_bench/sample_005567/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5568, + "data_source": "SPAR-Bench", + "question": "Based on the three images, is desk (green point) or box (blue point) closer to chair (red point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. box (blue point)\nB. desk (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005568/000.jpg", + "spar_bench/sample_005568/001.jpg", + "spar_bench/sample_005568/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5569, + "data_source": "SPAR-Bench", + "question": "Which point is located closer from toilet seat cover dispenser (red point) in the three images: toilet (green point) or rail (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. rail (blue point)\nB. toilet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005569/000.jpg", + "spar_bench/sample_005569/001.jpg", + "spar_bench/sample_005569/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5570, + "data_source": "SPAR-Bench", + "question": "Which object appears to be farther to file cabinet (red point) in the three images, chair (green point) or plant (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. plant (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005570/000.jpg", + "spar_bench/sample_005570/001.jpg", + "spar_bench/sample_005570/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5571, + "data_source": "SPAR-Bench", + "question": "From the center of keyboard (red point), which object, chair (green point) or monitor (blue point), is farther? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. chair (green point)\nB. monitor (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005571/000.jpg", + "spar_bench/sample_005571/001.jpg", + "spar_bench/sample_005571/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5572, + "data_source": "SPAR-Bench", + "question": "Looking at hair brush (red point), backpack (green point), and tissue box (blue point), which is closer to hair brush (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. backpack (green point)\nB. tissue box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005572/000.jpg", + "spar_bench/sample_005572/001.jpg", + "spar_bench/sample_005572/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5573, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is farther to pillow (red point): nightstand (green point) or lamp (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. lamp (blue point)\nB. nightstand (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005573/000.jpg", + "spar_bench/sample_005573/001.jpg", + "spar_bench/sample_005573/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5574, + "data_source": "SPAR-Bench", + "question": "Which of the two points, laptop (green point) or monitor (blue point), is closer from chair (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. laptop (green point)\nB. monitor (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005574/000.jpg", + "spar_bench/sample_005574/001.jpg", + "spar_bench/sample_005574/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5575, + "data_source": "SPAR-Bench", + "question": "Which object appears to be farther to pillow (red point) in the three images, chair (green point) or bookshelf (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. chair (green point)\nB. bookshelf (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005575/000.jpg", + "spar_bench/sample_005575/001.jpg", + "spar_bench/sample_005575/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5576, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies farther to chair (red point): chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005576/000.jpg", + "spar_bench/sample_005576/001.jpg", + "spar_bench/sample_005576/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5577, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is closer to sink (red point): bag (green point) or shelf (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. shelf (blue point)\nB. bag (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005577/000.jpg", + "spar_bench/sample_005577/001.jpg", + "spar_bench/sample_005577/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5578, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is farther to lamp (red point): pillow (green point) or nightstand (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. pillow (green point)\nB. nightstand (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005578/000.jpg", + "spar_bench/sample_005578/001.jpg", + "spar_bench/sample_005578/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5579, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is chair (green point) or table (blue point) farther to chair (red point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. table (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005579/000.jpg", + "spar_bench/sample_005579/001.jpg", + "spar_bench/sample_005579/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5580, + "data_source": "SPAR-Bench", + "question": "Which object lies at a closer distance from radiator (red point): chair (green point) or shelf (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. chair (green point)\nB. shelf (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005580/000.jpg", + "spar_bench/sample_005580/001.jpg", + "spar_bench/sample_005580/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5581, + "data_source": "SPAR-Bench", + "question": "Determine the object that is closer to chair (red point): chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005581/000.jpg", + "spar_bench/sample_005581/001.jpg", + "spar_bench/sample_005581/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5582, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is closer to shower curtain (red point): toilet (green point) or plunger (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. toilet (green point)\nB. plunger (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005582/000.jpg", + "spar_bench/sample_005582/001.jpg", + "spar_bench/sample_005582/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5583, + "data_source": "SPAR-Bench", + "question": "In this comparison, is laundry basket (green point) or picture (blue point) closer to the red point, table? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. laundry basket (green point)\nB. picture (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005583/000.jpg", + "spar_bench/sample_005583/001.jpg", + "spar_bench/sample_005583/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5584, + "data_source": "SPAR-Bench", + "question": "Which point is located closer from sink (red point) in the three images: trash bin (green point) or soap dispenser (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. soap dispenser (blue point)\nB. trash bin (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005584/000.jpg", + "spar_bench/sample_005584/001.jpg", + "spar_bench/sample_005584/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5585, + "data_source": "SPAR-Bench", + "question": "Based on the three images, is chair (green point) or bag (blue point) farther to box (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. bag (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005585/000.jpg", + "spar_bench/sample_005585/001.jpg", + "spar_bench/sample_005585/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5586, + "data_source": "SPAR-Bench", + "question": "Looking at chair (red point), chair (green point), and chair (blue point), which is farther to chair (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005586/000.jpg", + "spar_bench/sample_005586/001.jpg", + "spar_bench/sample_005586/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5587, + "data_source": "SPAR-Bench", + "question": "Identify the object that is spatially closer to chair (red point): the green pointchair or the blue pointtv. Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. tv (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005587/000.jpg", + "spar_bench/sample_005587/001.jpg", + "spar_bench/sample_005587/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5588, + "data_source": "SPAR-Bench", + "question": "Which of the two points, stair rail (green point) or bookshelf (blue point), is closer from chair (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. bookshelf (blue point)\nB. stair rail (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005588/000.jpg", + "spar_bench/sample_005588/001.jpg", + "spar_bench/sample_005588/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5589, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and decide whether monitor (green point) or bookshelf (blue point) is farther to the center of desk lamp (red point). Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. monitor (green point)\nB. bookshelf (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005589/000.jpg", + "spar_bench/sample_005589/001.jpg", + "spar_bench/sample_005589/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5590, + "data_source": "SPAR-Bench", + "question": "Relative to drying rack (red point), which object lies farther, shelf (green point) or drying rack (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. drying rack (blue point)\nB. shelf (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005590/000.jpg", + "spar_bench/sample_005590/001.jpg", + "spar_bench/sample_005590/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5591, + "data_source": "SPAR-Bench", + "question": "Which object appears to be farther to towel (red point) in the three images, towel (green point) or toilet (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. towel (green point)\nB. toilet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005591/000.jpg", + "spar_bench/sample_005591/001.jpg", + "spar_bench/sample_005591/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5592, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is farther to paper (red point): chair (green point) or pillow (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. chair (green point)\nB. pillow (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005592/000.jpg", + "spar_bench/sample_005592/001.jpg", + "spar_bench/sample_005592/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5593, + "data_source": "SPAR-Bench", + "question": "Identify the object that is spatially closer to table (red point): the green pointchair or the blue pointchair. Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005593/000.jpg", + "spar_bench/sample_005593/001.jpg", + "spar_bench/sample_005593/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5594, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is closer to box (red point): monitor (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. chair (blue point)\nB. monitor (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005594/000.jpg", + "spar_bench/sample_005594/001.jpg", + "spar_bench/sample_005594/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5595, + "data_source": "SPAR-Bench", + "question": "In relation to armchair (red point), which of the two objects is farther: clothing (green point) or dresser (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. dresser (blue point)\nB. clothing (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005595/000.jpg", + "spar_bench/sample_005595/001.jpg", + "spar_bench/sample_005595/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5596, + "data_source": "SPAR-Bench", + "question": "Which object appears to be closer to jacket (red point) in the three images, toilet paper (green point) or sign (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. toilet paper (green point)\nB. sign (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005596/000.jpg", + "spar_bench/sample_005596/001.jpg", + "spar_bench/sample_005596/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5597, + "data_source": "SPAR-Bench", + "question": "From the red point shelf, which object, armchair (green point) or backpack (blue point), is farther? Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. backpack (blue point)\nB. armchair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005597/000.jpg", + "spar_bench/sample_005597/001.jpg", + "spar_bench/sample_005597/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5598, + "data_source": "SPAR-Bench", + "question": "In relation to machine (red point), which of the two objects is closer: window (green point) or windowframe (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. window (green point)\nB. windowframe (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005598/000.jpg", + "spar_bench/sample_005598/001.jpg", + "spar_bench/sample_005598/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5599, + "data_source": "SPAR-Bench", + "question": "For the points labeled mug (green point), and table (blue point), determine which is farther to chair (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. mug (green point)\nB. table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005599/000.jpg", + "spar_bench/sample_005599/001.jpg", + "spar_bench/sample_005599/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5600, + "data_source": "SPAR-Bench", + "question": "For the points labeled power socket (green point), and table (blue point), determine which is farther to power socket (red point). Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. power socket (green point)\nB. table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005600/000.jpg", + "spar_bench/sample_005600/001.jpg", + "spar_bench/sample_005600/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5601, + "data_source": "SPAR-Bench", + "question": "Considering distances to power socket (red point), which object is farther: light switch (green point) or whiteboard (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. light switch (green point)\nB. whiteboard (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005601/000.jpg", + "spar_bench/sample_005601/001.jpg", + "spar_bench/sample_005601/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5602, + "data_source": "SPAR-Bench", + "question": "Considering the reference cardboard (red point), which object, pipe (green point) or cardboard (blue point), is farther? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. pipe (green point)\nB. cardboard (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005602/000.jpg", + "spar_bench/sample_005602/001.jpg", + "spar_bench/sample_005602/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5603, + "data_source": "SPAR-Bench", + "question": "Based on the three images, is storage cabinet (green point) or filter jug (blue point) closer to chair (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. filter jug (blue point)\nB. storage cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005603/000.jpg", + "spar_bench/sample_005603/001.jpg", + "spar_bench/sample_005603/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5604, + "data_source": "SPAR-Bench", + "question": "For the points labeled paper (green point), and whiteboard (blue point), determine which is closer to chair (red point). Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. paper (green point)\nB. whiteboard (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005604/000.jpg", + "spar_bench/sample_005604/001.jpg", + "spar_bench/sample_005604/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5605, + "data_source": "SPAR-Bench", + "question": "Looking at the positions of storage cabinet (red point), trash can (green point), and window (blue point), which is farther to storage cabinet? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. window (blue point)\nB. trash can (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005605/000.jpg", + "spar_bench/sample_005605/001.jpg", + "spar_bench/sample_005605/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5606, + "data_source": "SPAR-Bench", + "question": "Identify the object that is spatially closer to chair (red point): the green pointbook or the blue pointbook. Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. book (green point)\nB. book (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005606/000.jpg", + "spar_bench/sample_005606/001.jpg", + "spar_bench/sample_005606/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5607, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the three images. Is heater (green point) or trash bin (blue point) positioned closer to water kettle (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. heater (green point)\nB. trash bin (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005607/000.jpg", + "spar_bench/sample_005607/001.jpg", + "spar_bench/sample_005607/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5608, + "data_source": "SPAR-Bench", + "question": "Which object appears to be closer to photocopy machine (red point) in the three images, box (green point) or paper (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. box (green point)\nB. paper (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005608/000.jpg", + "spar_bench/sample_005608/001.jpg", + "spar_bench/sample_005608/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5609, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and conclude whether cabinet (green point) or laboratory bench (blue point) is farther to water pipe (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. cabinet (green point)\nB. laboratory bench (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005609/000.jpg", + "spar_bench/sample_005609/001.jpg", + "spar_bench/sample_005609/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5610, + "data_source": "SPAR-Bench", + "question": "In the provided three images, which is farther to desk (red point): window sill (green point) or mouse (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. window sill (green point)\nB. mouse (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005610/000.jpg", + "spar_bench/sample_005610/001.jpg", + "spar_bench/sample_005610/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5611, + "data_source": "SPAR-Bench", + "question": "Which point, chair (green point) or tv (blue point), is located closer to structure (red point)? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. chair (green point)\nB. tv (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005611/000.jpg", + "spar_bench/sample_005611/001.jpg", + "spar_bench/sample_005611/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5612, + "data_source": "SPAR-Bench", + "question": "From cabinet (red point), is laboratory bench (green point) or sink (blue point) situated at a farther distance? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. laboratory bench (green point)\nB. sink (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005612/000.jpg", + "spar_bench/sample_005612/001.jpg", + "spar_bench/sample_005612/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5613, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies closer to sink (red point): shower faucet (green point) or shower gel (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. shower gel (blue point)\nB. shower faucet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005613/000.jpg", + "spar_bench/sample_005613/001.jpg", + "spar_bench/sample_005613/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5614, + "data_source": "SPAR-Bench", + "question": "Based on the center points, which object is farther to cardboard (red point): pipe (green point) or cardboard (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. pipe (green point)\nB. cardboard (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005614/000.jpg", + "spar_bench/sample_005614/001.jpg", + "spar_bench/sample_005614/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5615, + "data_source": "SPAR-Bench", + "question": "Based on the three images, is cabinet (green point) or window frame (blue point) closer to mouse (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. window frame (blue point)\nB. cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005615/000.jpg", + "spar_bench/sample_005615/001.jpg", + "spar_bench/sample_005615/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5616, + "data_source": "SPAR-Bench", + "question": "Between stool (green point) and bar stool (blue point), which is positioned closer to plastic drum (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. stool (green point)\nB. bar stool (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005616/000.jpg", + "spar_bench/sample_005616/001.jpg", + "spar_bench/sample_005616/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5617, + "data_source": "SPAR-Bench", + "question": "Looking at the positions of books (red point), box (green point), and calendar (blue point), which is closer to books? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. calendar (blue point)\nB. box (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005617/000.jpg", + "spar_bench/sample_005617/001.jpg", + "spar_bench/sample_005617/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5618, + "data_source": "SPAR-Bench", + "question": "Determine the object that is farther to paper ram (red point): paper stapler (green point) or power socket (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. paper stapler (green point)\nB. power socket (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005618/000.jpg", + "spar_bench/sample_005618/001.jpg", + "spar_bench/sample_005618/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5619, + "data_source": "SPAR-Bench", + "question": "In the displayed three images, which object is farther to cardboard box (red point): cardboard box (green point) or storage cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. cardboard box (green point)\nB. storage cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005619/000.jpg", + "spar_bench/sample_005619/001.jpg", + "spar_bench/sample_005619/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5620, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (toilet paper holder) or the blue point (cleaning liquid) is closer to toilet brush (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. toilet paper holder (green point)\nB. cleaning liquid (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005620/000.jpg", + "spar_bench/sample_005620/001.jpg", + "spar_bench/sample_005620/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5621, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies closer to paper ram (red point): box (green point) or power socket (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. power socket (blue point)\nB. box (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005621/000.jpg", + "spar_bench/sample_005621/001.jpg", + "spar_bench/sample_005621/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5622, + "data_source": "SPAR-Bench", + "question": "In the visual provided, which object is farther to power socket (red point): paper stapler (green point) or paper ram (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. paper stapler (green point)\nB. paper ram (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005622/000.jpg", + "spar_bench/sample_005622/001.jpg", + "spar_bench/sample_005622/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5623, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and conclude whether pipe (green point) or cardboard (blue point) is farther to cardboard (red point). Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. pipe (green point)\nB. cardboard (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005623/000.jpg", + "spar_bench/sample_005623/001.jpg", + "spar_bench/sample_005623/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5624, + "data_source": "SPAR-Bench", + "question": "Relative to picture (red point), which object lies farther, paper towel (green point) or picture (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. picture (blue point)\nB. paper towel (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005624/000.jpg", + "spar_bench/sample_005624/001.jpg", + "spar_bench/sample_005624/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5625, + "data_source": "SPAR-Bench", + "question": "In the provided three images, which is farther to whiteboard eraser (red point): bin (green point) or table (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. bin (green point)\nB. table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005625/000.jpg", + "spar_bench/sample_005625/001.jpg", + "spar_bench/sample_005625/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5626, + "data_source": "SPAR-Bench", + "question": "Which object has a closer proximity to the red point ottoman chair: table lamp (green point) or box (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. table lamp (green point)\nB. box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005626/000.jpg", + "spar_bench/sample_005626/001.jpg", + "spar_bench/sample_005626/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5627, + "data_source": "SPAR-Bench", + "question": "Which object lies at a farther distance from speaker (red point): chair (green point) or box (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. box (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005627/000.jpg", + "spar_bench/sample_005627/001.jpg", + "spar_bench/sample_005627/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5628, + "data_source": "SPAR-Bench", + "question": "Identify the object that is farther to the red point chair (red point): sofa (green point) (green) or dumbbell (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. dumbbell (blue point)\nB. sofa (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005628/000.jpg", + "spar_bench/sample_005628/001.jpg", + "spar_bench/sample_005628/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5629, + "data_source": "SPAR-Bench", + "question": "Which point, green point (power socket) or blue point (phone), is farther to coffee machine (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. phone (blue point)\nB. power socket (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005629/000.jpg", + "spar_bench/sample_005629/001.jpg", + "spar_bench/sample_005629/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5630, + "data_source": "SPAR-Bench", + "question": "Determine which object, cup (green point) or switch (blue point), is positioned closer from whiteboard (red point) in the three images. Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. switch (blue point)\nB. cup (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005630/000.jpg", + "spar_bench/sample_005630/001.jpg", + "spar_bench/sample_005630/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5631, + "data_source": "SPAR-Bench", + "question": "Which object lies at a farther distance from office chair (red point): fire extinguisher (green point) or window (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. window (blue point)\nB. fire extinguisher (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005631/000.jpg", + "spar_bench/sample_005631/001.jpg", + "spar_bench/sample_005631/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5632, + "data_source": "SPAR-Bench", + "question": "For the points labeled rods (green point), and wooden plank (blue point), determine which is farther to pipe (red point). Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. wooden plank (blue point)\nB. rods (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005632/000.jpg", + "spar_bench/sample_005632/001.jpg", + "spar_bench/sample_005632/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5633, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies closer to sink (red point): shoes (green point) or toilet flush button (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. toilet flush button (blue point)\nB. shoes (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005633/000.jpg", + "spar_bench/sample_005633/001.jpg", + "spar_bench/sample_005633/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5634, + "data_source": "SPAR-Bench", + "question": "Looking at the positions of laundry basket (red point), towel (green point), and carpet (blue point), which is farther to laundry basket? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. towel (green point)\nB. carpet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005634/000.jpg", + "spar_bench/sample_005634/001.jpg", + "spar_bench/sample_005634/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5635, + "data_source": "SPAR-Bench", + "question": "Between picture (green point) and bag (blue point), which object is positioned farther to bar stool (red point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. picture (green point)\nB. bag (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005635/000.jpg", + "spar_bench/sample_005635/001.jpg", + "spar_bench/sample_005635/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5636, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the three images. Is book (green point) or book (blue point) positioned closer to chair (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. book (blue point)\nB. book (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005636/000.jpg", + "spar_bench/sample_005636/001.jpg", + "spar_bench/sample_005636/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5637, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is toilet brush (green point) or toilet paper holder (blue point) farther to shelve (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. toilet brush (green point)\nB. toilet paper holder (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005637/000.jpg", + "spar_bench/sample_005637/001.jpg", + "spar_bench/sample_005637/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5638, + "data_source": "SPAR-Bench", + "question": "Compare the positions of trash bin (green point) and table (blue point). Which is farther to the pedestal fan (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. table (blue point)\nB. trash bin (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005638/000.jpg", + "spar_bench/sample_005638/001.jpg", + "spar_bench/sample_005638/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5639, + "data_source": "SPAR-Bench", + "question": "Which object appears to be closer to flush button (red point) in the three images, window (green point) or grab bar (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. grab bar (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005639/000.jpg", + "spar_bench/sample_005639/001.jpg", + "spar_bench/sample_005639/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5640, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (heater) or the blue point (towel) is closer to washing machine (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. heater (green point)\nB. towel (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005640/000.jpg", + "spar_bench/sample_005640/001.jpg", + "spar_bench/sample_005640/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5641, + "data_source": "SPAR-Bench", + "question": "Looking at trousers (red point), toilet (green point), and light switch (blue point), which is farther to trousers (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. toilet (green point)\nB. light switch (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005641/000.jpg", + "spar_bench/sample_005641/001.jpg", + "spar_bench/sample_005641/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5642, + "data_source": "SPAR-Bench", + "question": "Looking at window sill (red point), chair (green point), and chair (blue point), which is farther to window sill (red point): the green point or the blue point? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005642/000.jpg", + "spar_bench/sample_005642/001.jpg", + "spar_bench/sample_005642/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5643, + "data_source": "SPAR-Bench", + "question": "Which object appears to be farther to chair (red point) in the three images, beanbag (green point) or power socket (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. beanbag (green point)\nB. power socket (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005643/000.jpg", + "spar_bench/sample_005643/001.jpg", + "spar_bench/sample_005643/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5644, + "data_source": "SPAR-Bench", + "question": "Compare the positions of cabinet (green point) and structure (blue point). Which is farther to the trash can (red point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. cabinet (green point)\nB. structure (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005644/000.jpg", + "spar_bench/sample_005644/001.jpg", + "spar_bench/sample_005644/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5645, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and conclude whether chair (green point) or file (blue point) is closer to cabinet (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. file (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005645/000.jpg", + "spar_bench/sample_005645/001.jpg", + "spar_bench/sample_005645/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5646, + "data_source": "SPAR-Bench", + "question": "Which object is spatially farther to machine (red point): window (green point) or window (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. window (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005646/000.jpg", + "spar_bench/sample_005646/001.jpg", + "spar_bench/sample_005646/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5647, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (box) or the blue point (window) is farther to chair (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. box (green point)\nB. window (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005647/000.jpg", + "spar_bench/sample_005647/001.jpg", + "spar_bench/sample_005647/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5648, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (microwave) or the blue point (copy machine) is closer to whiteboard (red point). Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. microwave (green point)\nB. copy machine (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005648/000.jpg", + "spar_bench/sample_005648/001.jpg", + "spar_bench/sample_005648/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5649, + "data_source": "SPAR-Bench", + "question": "Determine the object that is farther to light switch (red point): shoes (green point) or clothes (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. shoes (green point)\nB. clothes (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005649/000.jpg", + "spar_bench/sample_005649/001.jpg", + "spar_bench/sample_005649/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5650, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies closer to bedside lamp (red point): toilet (green point) or picture (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. toilet (green point)\nB. picture (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005650/000.jpg", + "spar_bench/sample_005650/001.jpg", + "spar_bench/sample_005650/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5651, + "data_source": "SPAR-Bench", + "question": "From the perspective of cup (red point), which object is closer, office chair (green point) or switch (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. office chair (green point)\nB. switch (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005651/000.jpg", + "spar_bench/sample_005651/001.jpg", + "spar_bench/sample_005651/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5652, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if book (green point) or chair (blue point) is closer to chair (red point). Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. book (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005652/000.jpg", + "spar_bench/sample_005652/001.jpg", + "spar_bench/sample_005652/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5653, + "data_source": "SPAR-Bench", + "question": "Between paper (green point) and paper (blue point), which is positioned closer to mug (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. paper (green point)\nB. paper (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005653/000.jpg", + "spar_bench/sample_005653/001.jpg", + "spar_bench/sample_005653/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5654, + "data_source": "SPAR-Bench", + "question": "By comparing the distances, determine if wardrobe (green point) or power panel (blue point) is farther to toilet paper (red point). Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. wardrobe (green point)\nB. power panel (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005654/000.jpg", + "spar_bench/sample_005654/001.jpg", + "spar_bench/sample_005654/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5655, + "data_source": "SPAR-Bench", + "question": "Relative to piano chair (red point), which object lies farther, bottle (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. bottle (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005655/000.jpg", + "spar_bench/sample_005655/001.jpg", + "spar_bench/sample_005655/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5656, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of pipe (red point), cabinet (green point), and cabinet (blue point). Which is closer to the center of pipe (red point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. cabinet (blue point)\nB. cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005656/000.jpg", + "spar_bench/sample_005656/001.jpg", + "spar_bench/sample_005656/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5657, + "data_source": "SPAR-Bench", + "question": "Which object lies at a closer distance from bottle (red point): towel (green point) or light switch (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. light switch (blue point)\nB. towel (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005657/000.jpg", + "spar_bench/sample_005657/001.jpg", + "spar_bench/sample_005657/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5658, + "data_source": "SPAR-Bench", + "question": "Which object lies at a closer distance from projector (red point): beanbag (green point) or stool (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. stool (blue point)\nB. beanbag (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005658/000.jpg", + "spar_bench/sample_005658/001.jpg", + "spar_bench/sample_005658/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5659, + "data_source": "SPAR-Bench", + "question": "From the perspective of shoes (red point), which object is farther, clothes (green point) or shelf (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. shelf (blue point)\nB. clothes (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005659/000.jpg", + "spar_bench/sample_005659/001.jpg", + "spar_bench/sample_005659/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5660, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is closer to toilet paper (red point): box (green point) or box (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. box (green point)\nB. box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005660/000.jpg", + "spar_bench/sample_005660/001.jpg", + "spar_bench/sample_005660/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5661, + "data_source": "SPAR-Bench", + "question": "Which object lies at a closer distance from shampoo bottle (red point): toilet paper holder (green point) or cup (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. toilet paper holder (green point)\nB. cup (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005661/000.jpg", + "spar_bench/sample_005661/001.jpg", + "spar_bench/sample_005661/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5662, + "data_source": "SPAR-Bench", + "question": "Between book (green point) and book (blue point), which is positioned closer to curtain (red point)? Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. book (blue point)\nB. book (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005662/000.jpg", + "spar_bench/sample_005662/001.jpg", + "spar_bench/sample_005662/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5663, + "data_source": "SPAR-Bench", + "question": "In this comparison, is light (green point) or bathtub (blue point) closer to the red point, folding chair? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. bathtub (blue point)\nB. light (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005663/000.jpg", + "spar_bench/sample_005663/001.jpg", + "spar_bench/sample_005663/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5664, + "data_source": "SPAR-Bench", + "question": "In the three images, which object is closer to cabinet (red point): shower tap (green point) or light switch (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. light switch (blue point)\nB. shower tap (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005664/000.jpg", + "spar_bench/sample_005664/001.jpg", + "spar_bench/sample_005664/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5665, + "data_source": "SPAR-Bench", + "question": "In the visual provided, which object is closer to book (red point): chair (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. cabinet (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005665/000.jpg", + "spar_bench/sample_005665/001.jpg", + "spar_bench/sample_005665/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5666, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is chair (green point) or sofa (blue point) closer to window (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. sofa (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005666/000.jpg", + "spar_bench/sample_005666/001.jpg", + "spar_bench/sample_005666/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5667, + "data_source": "SPAR-Bench", + "question": "From the three images, decide whether the green point (bathroom cabinet) or blue point (window) is closer to shower curtain (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. bathroom cabinet (green point)\nB. window (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005667/000.jpg", + "spar_bench/sample_005667/001.jpg", + "spar_bench/sample_005667/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5668, + "data_source": "SPAR-Bench", + "question": "Which of the two points, bucket (green point) or storage cabinet (blue point), is farther from light switch (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. bucket (green point)\nB. storage cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005668/000.jpg", + "spar_bench/sample_005668/001.jpg", + "spar_bench/sample_005668/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5669, + "data_source": "SPAR-Bench", + "question": "In the three images, which object is closer to monitor light (red point): window (green point) or window (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. window (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005669/000.jpg", + "spar_bench/sample_005669/001.jpg", + "spar_bench/sample_005669/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5670, + "data_source": "SPAR-Bench", + "question": "Which point is located closer from heater (red point) in the three images: chair (green point) or window sill (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. chair (green point)\nB. window sill (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005670/000.jpg", + "spar_bench/sample_005670/001.jpg", + "spar_bench/sample_005670/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5671, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, computer tower (green point) or electrical duct (blue point), is closer to mouse (red point) based on the three images? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. computer tower (green point)\nB. electrical duct (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005671/000.jpg", + "spar_bench/sample_005671/001.jpg", + "spar_bench/sample_005671/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5672, + "data_source": "SPAR-Bench", + "question": "From the red point trash bin, which object, kitchen cabinet (green point) or kitchen cabinet (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. kitchen cabinet (green point)\nB. kitchen cabinet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005672/000.jpg", + "spar_bench/sample_005672/001.jpg", + "spar_bench/sample_005672/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5673, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is windowsill (green point) or blinds (blue point) farther to office chair (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. windowsill (green point)\nB. blinds (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005673/000.jpg", + "spar_bench/sample_005673/001.jpg", + "spar_bench/sample_005673/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5674, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and decide whether box (green point) or table (blue point) is closer to the center of table (red point). Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. box (green point)\nB. table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005674/000.jpg", + "spar_bench/sample_005674/001.jpg", + "spar_bench/sample_005674/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5675, + "data_source": "SPAR-Bench", + "question": "In this comparison, is window (green point) or office chair (blue point) closer to the red point, fire extinguisher? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. window (green point)\nB. office chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005675/000.jpg", + "spar_bench/sample_005675/001.jpg", + "spar_bench/sample_005675/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5676, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of computer tower (red point), book (green point), and book (blue point). Which is closer to the center of computer tower (red point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. book (green point)\nB. book (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005676/000.jpg", + "spar_bench/sample_005676/001.jpg", + "spar_bench/sample_005676/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5677, + "data_source": "SPAR-Bench", + "question": "Compare the positions of shoe (green point) and box (blue point). Which is farther to the trash bin (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. shoe (green point)\nB. box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005677/000.jpg", + "spar_bench/sample_005677/001.jpg", + "spar_bench/sample_005677/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5678, + "data_source": "SPAR-Bench", + "question": "From the perspective of sink (red point), which object is farther, shaving foam (green point) or shower faucet (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. shaving foam (green point)\nB. shower faucet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005678/000.jpg", + "spar_bench/sample_005678/001.jpg", + "spar_bench/sample_005678/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5679, + "data_source": "SPAR-Bench", + "question": "Determine which object, pumper (green point) or kitchen utensils (blue point), is positioned farther from box (red point) in the three images. Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. kitchen utensils (blue point)\nB. pumper (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005679/000.jpg", + "spar_bench/sample_005679/001.jpg", + "spar_bench/sample_005679/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5680, + "data_source": "SPAR-Bench", + "question": "Which object appears to be closer to box (red point) in the three images, chair (green point) or pillow (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. chair (green point)\nB. pillow (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005680/000.jpg", + "spar_bench/sample_005680/001.jpg", + "spar_bench/sample_005680/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5681, + "data_source": "SPAR-Bench", + "question": "Which object is spatially farther to plate (red point): paper bag (green point) or monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. paper bag (green point)\nB. monitor (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005681/000.jpg", + "spar_bench/sample_005681/001.jpg", + "spar_bench/sample_005681/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5682, + "data_source": "SPAR-Bench", + "question": "From the red point chair, which object, poster (green point) or chair (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. poster (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005682/000.jpg", + "spar_bench/sample_005682/001.jpg", + "spar_bench/sample_005682/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5683, + "data_source": "SPAR-Bench", + "question": "Between the green point book and blue points cabinet, which lies closer to the red point chair? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. cabinet (blue point)\nB. book (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005683/000.jpg", + "spar_bench/sample_005683/001.jpg", + "spar_bench/sample_005683/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5684, + "data_source": "SPAR-Bench", + "question": "Identify the object that is farther to the red point light (red point): cabinet (green point) (green) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. cabinet (blue point)\nB. cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005684/000.jpg", + "spar_bench/sample_005684/001.jpg", + "spar_bench/sample_005684/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5685, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (cup) or the blue point (chopping board) is farther to fire extinguisher (red point). Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. cup (green point)\nB. chopping board (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005685/000.jpg", + "spar_bench/sample_005685/001.jpg", + "spar_bench/sample_005685/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5686, + "data_source": "SPAR-Bench", + "question": "Which object lies at a closer distance from picture (red point): picture (green point) or light switch (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. light switch (blue point)\nB. picture (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005686/000.jpg", + "spar_bench/sample_005686/001.jpg", + "spar_bench/sample_005686/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5687, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of cable duct (red point), power socket (green point), and trash can (blue point). Which is farther to the center of cable duct (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. trash can (blue point)\nB. power socket (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005687/000.jpg", + "spar_bench/sample_005687/001.jpg", + "spar_bench/sample_005687/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5688, + "data_source": "SPAR-Bench", + "question": "Determine which object, towel (green point) or pants (blue point), is positioned closer from jeans (red point) in the three images. Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. towel (green point)\nB. pants (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005688/000.jpg", + "spar_bench/sample_005688/001.jpg", + "spar_bench/sample_005688/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5689, + "data_source": "SPAR-Bench", + "question": "In the visual provided, which object is closer to table (red point): window (green point) or sofa (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. sofa (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005689/000.jpg", + "spar_bench/sample_005689/001.jpg", + "spar_bench/sample_005689/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5690, + "data_source": "SPAR-Bench", + "question": "Which of the two objects, chair (green point) or speaker (blue point), is farther to blackboard (red point) based on the three images? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. speaker (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005690/000.jpg", + "spar_bench/sample_005690/001.jpg", + "spar_bench/sample_005690/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5691, + "data_source": "SPAR-Bench", + "question": "Between storage cabinet (green point) and umbrella (blue point), which is positioned closer to metal sheet (red point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. umbrella (blue point)\nB. storage cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005691/000.jpg", + "spar_bench/sample_005691/001.jpg", + "spar_bench/sample_005691/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5692, + "data_source": "SPAR-Bench", + "question": "Which object has a farther proximity to the red point box: water kettle (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right answer from the options available.\nA. chair (blue point)\nB. water kettle (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005692/000.jpg", + "spar_bench/sample_005692/001.jpg", + "spar_bench/sample_005692/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5693, + "data_source": "SPAR-Bench", + "question": "In the displayed three images, which object is farther to beanbag (red point): cabinet (green point) or beanbag (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. cabinet (green point)\nB. beanbag (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005693/000.jpg", + "spar_bench/sample_005693/001.jpg", + "spar_bench/sample_005693/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5694, + "data_source": "SPAR-Bench", + "question": "From the red point projector, which object, joined tables (green point) or projector (blue point), is closer? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. joined tables (green point)\nB. projector (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005694/000.jpg", + "spar_bench/sample_005694/001.jpg", + "spar_bench/sample_005694/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5695, + "data_source": "SPAR-Bench", + "question": "In the provided three images, which is farther to cabinet (red point): structure (green point) or beanbag (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. beanbag (blue point)\nB. structure (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005695/000.jpg", + "spar_bench/sample_005695/001.jpg", + "spar_bench/sample_005695/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5696, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and conclude whether blanket (green point) or pegboard (blue point) is closer to armchair (red point). Calculate or judge based on the 3D center points of these objects. Pick the right response from the available choices.\nA. blanket (green point)\nB. pegboard (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005696/000.jpg", + "spar_bench/sample_005696/001.jpg", + "spar_bench/sample_005696/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5697, + "data_source": "SPAR-Bench", + "question": "Which point, green point (ottoman chair) or blue point (table), is closer to power socket (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct option from the available choices.\nA. table (blue point)\nB. ottoman chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005697/000.jpg", + "spar_bench/sample_005697/001.jpg", + "spar_bench/sample_005697/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5698, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and decide whether chair (green point) or chair (blue point) is closer to the center of chair (red point). Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. chair (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005698/000.jpg", + "spar_bench/sample_005698/001.jpg", + "spar_bench/sample_005698/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5699, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is closer to bedside table (red point): photo frame (green point) or paper (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. paper (blue point)\nB. photo frame (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005699/000.jpg", + "spar_bench/sample_005699/001.jpg", + "spar_bench/sample_005699/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5700, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (light switch) or the blue point (tv) is closer to shoe (red point). Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. tv (blue point)\nB. light switch (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005700/000.jpg", + "spar_bench/sample_005700/001.jpg", + "spar_bench/sample_005700/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5701, + "data_source": "SPAR-Bench", + "question": "Which of the two points, paper (green point) or cables (blue point), is closer from water bubbler (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. paper (green point)\nB. cables (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005701/000.jpg", + "spar_bench/sample_005701/001.jpg", + "spar_bench/sample_005701/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5702, + "data_source": "SPAR-Bench", + "question": "In relation to toilet paper holder (red point), which of the two objects is closer: toothbrush holder (green point) or toilet brush (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. toilet brush (blue point)\nB. toothbrush holder (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005702/000.jpg", + "spar_bench/sample_005702/001.jpg", + "spar_bench/sample_005702/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5703, + "data_source": "SPAR-Bench", + "question": "In the three images, which object is closer to toilet paper (red point): toilet (green point) or bedside counter (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. toilet (green point)\nB. bedside counter (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005703/000.jpg", + "spar_bench/sample_005703/001.jpg", + "spar_bench/sample_005703/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5704, + "data_source": "SPAR-Bench", + "question": "Between trash can (green point) and tray (blue point), which is positioned closer to windowsill (red point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. tray (blue point)\nB. trash can (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005704/000.jpg", + "spar_bench/sample_005704/001.jpg", + "spar_bench/sample_005704/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5705, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is farther to knife set (red point): shelf (green point) or dishwasher (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. shelf (green point)\nB. dishwasher (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005705/000.jpg", + "spar_bench/sample_005705/001.jpg", + "spar_bench/sample_005705/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5706, + "data_source": "SPAR-Bench", + "question": "Determine which object, chair (green point) or computer tower (blue point), is positioned farther from computer tower (red point) in the three images. Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. computer tower (blue point)\nB. chair (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005706/000.jpg", + "spar_bench/sample_005706/001.jpg", + "spar_bench/sample_005706/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5707, + "data_source": "SPAR-Bench", + "question": "In the three images, which object is farther to stool (red point): case (green point) or plastic case (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. case (green point)\nB. plastic case (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005707/000.jpg", + "spar_bench/sample_005707/001.jpg", + "spar_bench/sample_005707/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5708, + "data_source": "SPAR-Bench", + "question": "In the three images, which is closer to the center of cardboard box (red point): cardboard box (green point) or cardboard box (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. cardboard box (green point)\nB. cardboard box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005708/000.jpg", + "spar_bench/sample_005708/001.jpg", + "spar_bench/sample_005708/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5709, + "data_source": "SPAR-Bench", + "question": "Relative to wardrobe (red point), which object lies closer, picture (green point) or picture (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. picture (blue point)\nB. picture (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005709/000.jpg", + "spar_bench/sample_005709/001.jpg", + "spar_bench/sample_005709/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5710, + "data_source": "SPAR-Bench", + "question": "From the given positions, which is closer to whiteboard eraser (red point): bookshelf (green point) or box (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct response from the given choices.\nA. bookshelf (green point)\nB. box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005710/000.jpg", + "spar_bench/sample_005710/001.jpg", + "spar_bench/sample_005710/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5711, + "data_source": "SPAR-Bench", + "question": "Based on the three images, is computer tower (green point) or monitor (blue point) farther to computer tower (red point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. computer tower (green point)\nB. monitor (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005711/000.jpg", + "spar_bench/sample_005711/001.jpg", + "spar_bench/sample_005711/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5712, + "data_source": "SPAR-Bench", + "question": "Compare the positions of plug (green point) and chair (blue point). Which is closer to the table (red point)? Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. plug (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005712/000.jpg", + "spar_bench/sample_005712/001.jpg", + "spar_bench/sample_005712/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5713, + "data_source": "SPAR-Bench", + "question": "Between the green point sofa and blue points paper, which lies closer to the red point table? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. sofa (green point)\nB. paper (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005713/000.jpg", + "spar_bench/sample_005713/001.jpg", + "spar_bench/sample_005713/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5714, + "data_source": "SPAR-Bench", + "question": "Identify the object that is spatially farther to cabinet (red point): the green pointbeanbag or the blue pointcabinet. Calculate or judge based on the 3D center points of these objects. Choose the appropriate option from the choices provided.\nA. cabinet (blue point)\nB. beanbag (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005714/000.jpg", + "spar_bench/sample_005714/001.jpg", + "spar_bench/sample_005714/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5715, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and decide whether shampoo bottle (green point) or bottle (blue point) is closer to the center of bottle (red point). Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. shampoo bottle (green point)\nB. bottle (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005715/000.jpg", + "spar_bench/sample_005715/001.jpg", + "spar_bench/sample_005715/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5716, + "data_source": "SPAR-Bench", + "question": "Which object has a farther proximity to the red point window: whiteboard eraser (green point) or table (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. whiteboard eraser (green point)\nB. table (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005716/000.jpg", + "spar_bench/sample_005716/001.jpg", + "spar_bench/sample_005716/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5717, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and conclude whether folding chair (green point) or windowsill (blue point) is closer to towel (red point). Calculate or judge based on the 3D center points of these objects. Pick the correct option from the choices provided.\nA. folding chair (green point)\nB. windowsill (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005717/000.jpg", + "spar_bench/sample_005717/001.jpg", + "spar_bench/sample_005717/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5718, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and decide whether pipe (green point) or pipe (blue point) is closer to the center of pipe (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. pipe (blue point)\nB. pipe (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005718/000.jpg", + "spar_bench/sample_005718/001.jpg", + "spar_bench/sample_005718/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5719, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and conclude whether cabinet (green point) or bathtub (blue point) is farther to towel (red point). Calculate or judge based on the 3D center points of these objects. Select the correct answer from the given choices.\nA. cabinet (green point)\nB. bathtub (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005719/000.jpg", + "spar_bench/sample_005719/001.jpg", + "spar_bench/sample_005719/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5720, + "data_source": "SPAR-Bench", + "question": "In relation to plant pot (red point), which of the two objects is farther: chair (green point) or sofa (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. chair (green point)\nB. sofa (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005720/000.jpg", + "spar_bench/sample_005720/001.jpg", + "spar_bench/sample_005720/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5721, + "data_source": "SPAR-Bench", + "question": "Considering distances to folding sofa (red point), which object is closer: curtain (green point) or monitor (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. curtain (green point)\nB. monitor (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005721/000.jpg", + "spar_bench/sample_005721/001.jpg", + "spar_bench/sample_005721/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5722, + "data_source": "SPAR-Bench", + "question": "Evaluate the distances in the three images. Is bathroom shelf (green point) or toilet (blue point) positioned farther to bedside counter (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. bathroom shelf (green point)\nB. toilet (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005722/000.jpg", + "spar_bench/sample_005722/001.jpg", + "spar_bench/sample_005722/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5723, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and decide whether bottle crate (green point) or copy machine (blue point) is farther to the center of calendar (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. copy machine (blue point)\nB. bottle crate (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005723/000.jpg", + "spar_bench/sample_005723/001.jpg", + "spar_bench/sample_005723/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5724, + "data_source": "SPAR-Bench", + "question": "Which of the two points, power socket (green point) or power socket (blue point), is closer from table (red point) in the three images? Calculate or judge based on the 3D center points of these objects. Select the right option from the choices provided.\nA. power socket (green point)\nB. power socket (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005724/000.jpg", + "spar_bench/sample_005724/001.jpg", + "spar_bench/sample_005724/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5725, + "data_source": "SPAR-Bench", + "question": "Analyze the positions of book shelf (red point), sweater (green point), and monitor light (blue point). Which is closer to the center of book shelf (red point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. sweater (green point)\nB. monitor light (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005725/000.jpg", + "spar_bench/sample_005725/001.jpg", + "spar_bench/sample_005725/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5726, + "data_source": "SPAR-Bench", + "question": "Looking at the three images, identify whether trash can (green point) or desk lamp (blue point) is farther to the center of bluetooth speaker (red point). Calculate or judge based on the 3D center points of these objects. Select the correct response from the given choices.\nA. desk lamp (blue point)\nB. trash can (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005726/000.jpg", + "spar_bench/sample_005726/001.jpg", + "spar_bench/sample_005726/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5727, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies closer to toilet paper holder (red point): bottle (green point) or shampoo bottle (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. shampoo bottle (blue point)\nB. bottle (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005727/000.jpg", + "spar_bench/sample_005727/001.jpg", + "spar_bench/sample_005727/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5728, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and decide whether water kettle (green point) or arm chair (blue point) is closer to the center of box (red point). Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. arm chair (blue point)\nB. water kettle (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005728/000.jpg", + "spar_bench/sample_005728/001.jpg", + "spar_bench/sample_005728/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5729, + "data_source": "SPAR-Bench", + "question": "Which point is located closer from table (red point) in the three images: chair (green point) or chair (blue point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. chair (green point)\nB. chair (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005729/000.jpg", + "spar_bench/sample_005729/001.jpg", + "spar_bench/sample_005729/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5730, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (light) or the blue point (shower curtain) is farther to shoes (red point). Calculate or judge based on the 3D center points of these objects. Pick the correct answer from the choices provided.\nA. light (green point)\nB. shower curtain (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005730/000.jpg", + "spar_bench/sample_005730/001.jpg", + "spar_bench/sample_005730/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5731, + "data_source": "SPAR-Bench", + "question": "Which point is located farther from window (red point) in the three images: monitor (green point) or window (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the appropriate answer from the options given.\nA. window (blue point)\nB. monitor (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005731/000.jpg", + "spar_bench/sample_005731/001.jpg", + "spar_bench/sample_005731/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5732, + "data_source": "SPAR-Bench", + "question": "Identify the object that is closer to the red point copy machine (red point): whiteboard (green point) (green) or bottle crate (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. whiteboard (green point)\nB. bottle crate (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005732/000.jpg", + "spar_bench/sample_005732/001.jpg", + "spar_bench/sample_005732/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5733, + "data_source": "SPAR-Bench", + "question": "In terms of distance, is storage cabinet (green point) or cardboard box (blue point) closer to cardboard box (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate answer from the options given.\nA. storage cabinet (green point)\nB. cardboard box (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005733/000.jpg", + "spar_bench/sample_005733/001.jpg", + "spar_bench/sample_005733/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5734, + "data_source": "SPAR-Bench", + "question": "Relative to towel (red point), which object lies farther, bathtub (green point) or towel (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate option from the given choices.\nA. towel (blue point)\nB. bathtub (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005734/000.jpg", + "spar_bench/sample_005734/001.jpg", + "spar_bench/sample_005734/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5735, + "data_source": "SPAR-Bench", + "question": "Which object appears to be closer to pen holder (red point) in the three images, cabinet (green point) or cable (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. cable (blue point)\nB. cabinet (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005735/000.jpg", + "spar_bench/sample_005735/001.jpg", + "spar_bench/sample_005735/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5736, + "data_source": "SPAR-Bench", + "question": "Determine the object that is farther to kitchen cabinet (red point): window (green point) or cabinet (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. cabinet (blue point)\nB. window (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005736/000.jpg", + "spar_bench/sample_005736/001.jpg", + "spar_bench/sample_005736/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5737, + "data_source": "SPAR-Bench", + "question": "In relation to toilet paper holder (red point), which of the two objects is closer: towel (green point) or toilet brush (blue point)? Calculate or judge based on the 3D center points of these objects. Please select the correct option from the choices provided.\nA. towel (green point)\nB. toilet brush (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005737/000.jpg", + "spar_bench/sample_005737/001.jpg", + "spar_bench/sample_005737/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5738, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and decide whether kitchen cabinet (green point) or sink (blue point) is closer to the center of dishwasher (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. kitchen cabinet (green point)\nB. sink (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005738/000.jpg", + "spar_bench/sample_005738/001.jpg", + "spar_bench/sample_005738/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5739, + "data_source": "SPAR-Bench", + "question": "In the visual provided, which object is closer to windowframe (red point): trash can (green point) or window (blue point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. trash can (green point)\nB. window (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005739/000.jpg", + "spar_bench/sample_005739/001.jpg", + "spar_bench/sample_005739/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5740, + "data_source": "SPAR-Bench", + "question": "Analyze the three images and conclude whether paper (green point) or picture (blue point) is farther to towel (red point). Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices provided.\nA. picture (blue point)\nB. paper (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005740/000.jpg", + "spar_bench/sample_005740/001.jpg", + "spar_bench/sample_005740/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5741, + "data_source": "SPAR-Bench", + "question": "Of the two objects, toilet brush (green point) and trash bin (blue point), which is closer to light switch (red point)? Calculate or judge based on the 3D center points of these objects. Choose the right response from the choices provided.\nA. toilet brush (green point)\nB. trash bin (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005741/000.jpg", + "spar_bench/sample_005741/001.jpg", + "spar_bench/sample_005741/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5742, + "data_source": "SPAR-Bench", + "question": "Of the two objects, which lies farther to light switch (red point): chair (green point) or beanbag (blue point)? Calculate or judge based on the 3D center points of these objects. Select the right response from the available choices.\nA. chair (green point)\nB. beanbag (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005742/000.jpg", + "spar_bench/sample_005742/001.jpg", + "spar_bench/sample_005742/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5743, + "data_source": "SPAR-Bench", + "question": "Which point, green point (box) or blue point (window frame), is closer to cabinet (red point)? Calculate or judge based on the 3D center points of these objects. Pick the appropriate option from the choices available.\nA. box (green point)\nB. window frame (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005743/000.jpg", + "spar_bench/sample_005743/001.jpg", + "spar_bench/sample_005743/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5744, + "data_source": "SPAR-Bench", + "question": "From the perspective of light switch (red point), which object is farther, chair (green point) or beanbag (blue point)? Calculate or judge based on the 3D center points of these objects. Select the appropriate response from the given choices.\nA. chair (green point)\nB. beanbag (blue point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005744/000.jpg", + "spar_bench/sample_005744/001.jpg", + "spar_bench/sample_005744/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5745, + "data_source": "SPAR-Bench", + "question": "Decide whether the green point (stool) or the blue point (milling machine) is closer to bucket (red point). Calculate or judge based on the 3D center points of these objects. Choose the correct answer from the choices available.\nA. milling machine (blue point)\nB. stool (green point)\nYour answer can only include one of options A, B.", + "image_path": [ + "spar_bench/sample_005745/000.jpg", + "spar_bench/sample_005745/001.jpg", + "spar_bench/sample_005745/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "distance_infer_center_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5746, + "data_source": "SPAR-Bench", + "question": "How is object sink (bbox) situated with respect to the observer\u2019s main viewpoint? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, front\nB. , below, behind\nC. right, , front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005746/000.jpg", + "spar_bench/sample_005746/001.jpg", + "spar_bench/sample_005746/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5747, + "data_source": "SPAR-Bench", + "question": "In the observer's frame of reference, where is boxes (bbox) positioned? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , below, behind\nB. left, , behind\nC. , above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005747/000.jpg", + "spar_bench/sample_005747/001.jpg", + "spar_bench/sample_005747/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5748, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, what is the position of object sink (bbox)? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , behind\nB. right, below, behind\nC. right, below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005748/000.jpg", + "spar_bench/sample_005748/001.jpg", + "spar_bench/sample_005748/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5749, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s viewpoint, describe the direction of toilet (bbox) in the three images. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, front\nB. , below, behind\nC. left, above, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005749/000.jpg", + "spar_bench/sample_005749/001.jpg", + "spar_bench/sample_005749/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5750, + "data_source": "SPAR-Bench", + "question": "Where is shoes (bbox) positioned with respect to the observer's viewing angle? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , behind\nB. left, above, \nC. right, below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005750/000.jpg", + "spar_bench/sample_005750/001.jpg", + "spar_bench/sample_005750/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5751, + "data_source": "SPAR-Bench", + "question": "Where is bag (bbox) positioned with respect to the observer's viewing angle? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, behind\nB. left, , front\nC. , below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005751/000.jpg", + "spar_bench/sample_005751/001.jpg", + "spar_bench/sample_005751/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5752, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, where can paper bag (bbox) be found in the three images? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, front\nB. left, , front\nC. right, above, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005752/000.jpg", + "spar_bench/sample_005752/001.jpg", + "spar_bench/sample_005752/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5753, + "data_source": "SPAR-Bench", + "question": "What is the spatial direction of object bathroom counter (bbox) from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , above, front\nB. right, below, \nC. right, above, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005753/000.jpg", + "spar_bench/sample_005753/001.jpg", + "spar_bench/sample_005753/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5754, + "data_source": "SPAR-Bench", + "question": "What is the direction of object trash can (bbox) relative to the observer's primary angle? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, above, front\nB. right, above, behind\nC. right, above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005754/000.jpg", + "spar_bench/sample_005754/001.jpg", + "spar_bench/sample_005754/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5755, + "data_source": "SPAR-Bench", + "question": "Considering the observer's main viewpoint, where is piano bench (bbox) located in the scene? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, front\nB. right, below, front\nC. left, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005755/000.jpg", + "spar_bench/sample_005755/001.jpg", + "spar_bench/sample_005755/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5756, + "data_source": "SPAR-Bench", + "question": "As viewed from the observer's perspective, where is object chair (bbox) located? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, \nB. right, below, front\nC. left, , front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005756/000.jpg", + "spar_bench/sample_005756/001.jpg", + "spar_bench/sample_005756/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5757, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where can object bathrobe (bbox) be seen? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , below, behind\nB. right, , front\nC. , above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005757/000.jpg", + "spar_bench/sample_005757/001.jpg", + "spar_bench/sample_005757/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5758, + "data_source": "SPAR-Bench", + "question": "As viewed from the observer's perspective, where is object telephone (bbox) located? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, front\nB. left, above, front\nC. right, below, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005758/000.jpg", + "spar_bench/sample_005758/001.jpg", + "spar_bench/sample_005758/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5759, + "data_source": "SPAR-Bench", + "question": "In what direction is box (bbox) placed as seen from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , front\nB. left, below, \nC. right, above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005759/000.jpg", + "spar_bench/sample_005759/001.jpg", + "spar_bench/sample_005759/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5760, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, what is the position of object shoes (bbox)? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, behind\nB. right, below, front\nC. right, , behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005760/000.jpg", + "spar_bench/sample_005760/001.jpg", + "spar_bench/sample_005760/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5761, + "data_source": "SPAR-Bench", + "question": "How is washing machines (bbox) oriented with respect to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, front\nB. right, above, behind\nC. left, below, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005761/000.jpg", + "spar_bench/sample_005761/001.jpg", + "spar_bench/sample_005761/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5762, + "data_source": "SPAR-Bench", + "question": "Where is microwave (bbox) found relative to the main viewpoint of the observer? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, behind\nB. , above, front\nC. right, , behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005762/000.jpg", + "spar_bench/sample_005762/001.jpg", + "spar_bench/sample_005762/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5763, + "data_source": "SPAR-Bench", + "question": "In the observer's frame of reference, where is chair (bbox) positioned? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , behind\nB. left, , front\nC. right, below, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005763/000.jpg", + "spar_bench/sample_005763/001.jpg", + "spar_bench/sample_005763/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5764, + "data_source": "SPAR-Bench", + "question": "Where is bag (bbox) found relative to the main viewpoint of the observer? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, behind\nB. left, , front\nC. right, below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005764/000.jpg", + "spar_bench/sample_005764/001.jpg", + "spar_bench/sample_005764/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5765, + "data_source": "SPAR-Bench", + "question": "Describe the spatial orientation of object chair (bbox) relative to the observer. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, behind\nB. right, below, front\nC. right, , behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005765/000.jpg", + "spar_bench/sample_005765/001.jpg", + "spar_bench/sample_005765/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5766, + "data_source": "SPAR-Bench", + "question": "What is the spatial direction of object box (bbox) from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, \nB. left, below, behind\nC. left, below, front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005766/000.jpg", + "spar_bench/sample_005766/001.jpg", + "spar_bench/sample_005766/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5767, + "data_source": "SPAR-Bench", + "question": "Describe the position of object whiteboard (bbox) as viewed from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, front\nB. left, , front\nC. left, above, behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005767/000.jpg", + "spar_bench/sample_005767/001.jpg", + "spar_bench/sample_005767/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5768, + "data_source": "SPAR-Bench", + "question": "Considering the observer's main viewpoint, where is light (bbox) located in the scene? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, front\nB. , below, behind\nC. right, above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005768/000.jpg", + "spar_bench/sample_005768/001.jpg", + "spar_bench/sample_005768/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5769, + "data_source": "SPAR-Bench", + "question": "Where is chair (bbox) found in relation to the observer\u2019s primary perspective? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, above, behind\nB. left, , front\nC. left, below, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005769/000.jpg", + "spar_bench/sample_005769/001.jpg", + "spar_bench/sample_005769/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5770, + "data_source": "SPAR-Bench", + "question": "Where is object chair (bbox) located in relation to the observer\u2019s primary viewing angle? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, front\nB. right, , behind\nC. right, above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005770/000.jpg", + "spar_bench/sample_005770/001.jpg", + "spar_bench/sample_005770/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5771, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, describe the spatial location of window (bbox) in the scene. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, behind\nB. right, below, front\nC. left, , front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005771/000.jpg", + "spar_bench/sample_005771/001.jpg", + "spar_bench/sample_005771/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5772, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, where can machine (bbox) be found in the three images? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , behind\nB. right, above, behind\nC. right, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005772/000.jpg", + "spar_bench/sample_005772/001.jpg", + "spar_bench/sample_005772/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5773, + "data_source": "SPAR-Bench", + "question": "How is object tube (bbox) aligned from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , above, front\nB. left, above, front\nC. , below, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005773/000.jpg", + "spar_bench/sample_005773/001.jpg", + "spar_bench/sample_005773/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5774, + "data_source": "SPAR-Bench", + "question": "As viewed from the observer's perspective, where is object table (bbox) located? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, front\nB. left, below, \nC. , below, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005774/000.jpg", + "spar_bench/sample_005774/001.jpg", + "spar_bench/sample_005774/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5775, + "data_source": "SPAR-Bench", + "question": "How is object shoes (bbox) oriented relative to the observer's perspective? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, \nB. left, above, \nC. right, above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005775/000.jpg", + "spar_bench/sample_005775/001.jpg", + "spar_bench/sample_005775/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5776, + "data_source": "SPAR-Bench", + "question": "Where does object desk (bbox) appear relative to the observer's main viewpoint? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, \nB. , below, behind\nC. right, below, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005776/000.jpg", + "spar_bench/sample_005776/001.jpg", + "spar_bench/sample_005776/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5777, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s viewpoint, describe the direction of paper towel dispenser (bbox) in the three images. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, front\nB. left, above, behind\nC. right, above, behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005777/000.jpg", + "spar_bench/sample_005777/001.jpg", + "spar_bench/sample_005777/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5778, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s viewpoint, describe the direction of armchair (bbox) in the three images. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , front\nB. left, below, front\nC. right, above, \nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005778/000.jpg", + "spar_bench/sample_005778/001.jpg", + "spar_bench/sample_005778/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5779, + "data_source": "SPAR-Bench", + "question": "Describe the location of object box (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, behind\nB. right, , behind\nC. left, below, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005779/000.jpg", + "spar_bench/sample_005779/001.jpg", + "spar_bench/sample_005779/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5780, + "data_source": "SPAR-Bench", + "question": "Relative to the observer's main perspective, what is the position of object radiator (bbox)? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, \nB. right, below, front\nC. left, above, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005780/000.jpg", + "spar_bench/sample_005780/001.jpg", + "spar_bench/sample_005780/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5781, + "data_source": "SPAR-Bench", + "question": "Where is messenger bag (bbox) found relative to the main viewpoint of the observer? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , front\nB. left, , behind\nC. right, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005781/000.jpg", + "spar_bench/sample_005781/001.jpg", + "spar_bench/sample_005781/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5782, + "data_source": "SPAR-Bench", + "question": "From the main perspective of the observer, describe the location of desk lamp (bbox). Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , front\nB. left, above, \nC. left, below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005782/000.jpg", + "spar_bench/sample_005782/001.jpg", + "spar_bench/sample_005782/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5783, + "data_source": "SPAR-Bench", + "question": "From the main perspective of the observer, describe the location of bag (bbox). Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, front\nB. right, above, \nC. , below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005783/000.jpg", + "spar_bench/sample_005783/001.jpg", + "spar_bench/sample_005783/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5784, + "data_source": "SPAR-Bench", + "question": "How is object bathtub (bbox) placed with respect to the observer's reference point? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, front\nB. left, below, front\nC. right, below, \nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005784/000.jpg", + "spar_bench/sample_005784/001.jpg", + "spar_bench/sample_005784/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5785, + "data_source": "SPAR-Bench", + "question": "Where does object office chair (bbox) appear relative to the observer's main viewpoint? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , front\nB. right, above, behind\nC. right, below, front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005785/000.jpg", + "spar_bench/sample_005785/001.jpg", + "spar_bench/sample_005785/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5786, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, describe the spatial location of desk (bbox) in the scene. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , above, front\nB. left, below, front\nC. left, , behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005786/000.jpg", + "spar_bench/sample_005786/001.jpg", + "spar_bench/sample_005786/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5787, + "data_source": "SPAR-Bench", + "question": "Describe the relative position of object desk (bbox) as observed from the viewer's angle. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, front\nB. left, , behind\nC. left, below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005787/000.jpg", + "spar_bench/sample_005787/001.jpg", + "spar_bench/sample_005787/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5788, + "data_source": "SPAR-Bench", + "question": "As seen by the observer, where is window (bbox) located in the three images? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, behind\nB. right, , front\nC. right, above, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005788/000.jpg", + "spar_bench/sample_005788/001.jpg", + "spar_bench/sample_005788/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5789, + "data_source": "SPAR-Bench", + "question": "How is shelf (bbox) oriented with respect to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, \nB. left, below, front\nC. left, above, \nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005789/000.jpg", + "spar_bench/sample_005789/001.jpg", + "spar_bench/sample_005789/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5790, + "data_source": "SPAR-Bench", + "question": "As seen from the observer\u2019s perspective, what is the direction of lamp (bbox)? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, \nB. , below, behind\nC. , above, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005790/000.jpg", + "spar_bench/sample_005790/001.jpg", + "spar_bench/sample_005790/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5791, + "data_source": "SPAR-Bench", + "question": "From the main perspective of the observer, describe the location of pillow (bbox). Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, front\nB. , below, front\nC. left, above, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005791/000.jpg", + "spar_bench/sample_005791/001.jpg", + "spar_bench/sample_005791/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5792, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, describe the spatial location of mattress (bbox) in the scene. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , below, front\nB. right, below, front\nC. left, , behind\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005792/000.jpg", + "spar_bench/sample_005792/001.jpg", + "spar_bench/sample_005792/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5793, + "data_source": "SPAR-Bench", + "question": "Considering the observer\u2019s viewpoint, where is towel (bbox) placed in the three images? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, front\nB. left, , behind\nC. , below, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005793/000.jpg", + "spar_bench/sample_005793/001.jpg", + "spar_bench/sample_005793/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5794, + "data_source": "SPAR-Bench", + "question": "In the given three images, describe the spatial position of laundry detergent (bbox) relative to the observer. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, front\nB. , below, front\nC. right, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005794/000.jpg", + "spar_bench/sample_005794/001.jpg", + "spar_bench/sample_005794/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5795, + "data_source": "SPAR-Bench", + "question": "Relative to the main viewing perspective, where is bookshelf (bbox) located? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, behind\nB. , above, behind\nC. right, , front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005795/000.jpg", + "spar_bench/sample_005795/001.jpg", + "spar_bench/sample_005795/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5796, + "data_source": "SPAR-Bench", + "question": "Where is object toilet paper (bbox) located in relation to the observer\u2019s primary viewing angle? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, \nB. , below, behind\nC. right, below, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005796/000.jpg", + "spar_bench/sample_005796/001.jpg", + "spar_bench/sample_005796/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5797, + "data_source": "SPAR-Bench", + "question": "As seen from the observer\u2019s perspective, what is the direction of laptop (bbox)? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, front\nB. right, above, \nC. right, , front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005797/000.jpg", + "spar_bench/sample_005797/001.jpg", + "spar_bench/sample_005797/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5798, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where can object chair (bbox) be seen? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, behind\nB. right, , behind\nC. right, below, front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005798/000.jpg", + "spar_bench/sample_005798/001.jpg", + "spar_bench/sample_005798/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5799, + "data_source": "SPAR-Bench", + "question": "As seen by the observer, where is bathroom stall door (bbox) located in the three images? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, behind\nB. left, , front\nC. left, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005799/000.jpg", + "spar_bench/sample_005799/001.jpg", + "spar_bench/sample_005799/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5800, + "data_source": "SPAR-Bench", + "question": "Considering the observer\u2019s viewpoint, where is pillow (bbox) placed in the three images? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, behind\nB. right, below, front\nC. left, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005800/000.jpg", + "spar_bench/sample_005800/001.jpg", + "spar_bench/sample_005800/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5801, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where does object chair (bbox) appear in the scene? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, behind\nB. left, , front\nC. right, above, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005801/000.jpg", + "spar_bench/sample_005801/001.jpg", + "spar_bench/sample_005801/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5802, + "data_source": "SPAR-Bench", + "question": "As seen by the observer, where is books (bbox) located in the three images? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, below, front\nB. left, below, \nC. right, below, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005802/000.jpg", + "spar_bench/sample_005802/001.jpg", + "spar_bench/sample_005802/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5803, + "data_source": "SPAR-Bench", + "question": "Considering the observer's main viewpoint, where is desk (bbox) located in the scene? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , behind\nB. right, below, front\nC. left, below, \nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005803/000.jpg", + "spar_bench/sample_005803/001.jpg", + "spar_bench/sample_005803/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5804, + "data_source": "SPAR-Bench", + "question": "How is object chair (bbox) placed with respect to the observer's reference point? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , front\nB. left, above, front\nC. right, above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005804/000.jpg", + "spar_bench/sample_005804/001.jpg", + "spar_bench/sample_005804/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5805, + "data_source": "SPAR-Bench", + "question": "What is the spatial direction of object chair (bbox) from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, \nB. left, below, behind\nC. right, , front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005805/000.jpg", + "spar_bench/sample_005805/001.jpg", + "spar_bench/sample_005805/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5806, + "data_source": "SPAR-Bench", + "question": "What is the position of chair (bbox) as seen from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, front\nB. right, above, \nC. , below, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005806/000.jpg", + "spar_bench/sample_005806/001.jpg", + "spar_bench/sample_005806/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5807, + "data_source": "SPAR-Bench", + "question": "In what direction is shower walls (bbox) placed as seen from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, front\nB. right, below, front\nC. right, above, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005807/000.jpg", + "spar_bench/sample_005807/001.jpg", + "spar_bench/sample_005807/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5808, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s viewpoint, describe the direction of pillow (bbox) in the three images. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, \nB. right, , behind\nC. right, below, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005808/000.jpg", + "spar_bench/sample_005808/001.jpg", + "spar_bench/sample_005808/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5809, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, where can monitor (bbox) be found in the three images? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, front\nB. left, , front\nC. right, , behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005809/000.jpg", + "spar_bench/sample_005809/001.jpg", + "spar_bench/sample_005809/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5810, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where does object curtain (bbox) appear in the scene? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, \nB. left, above, \nC. left, below, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005810/000.jpg", + "spar_bench/sample_005810/001.jpg", + "spar_bench/sample_005810/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5811, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s primary angle, what is the position of object shelf (bbox)? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , front\nB. left, above, front\nC. right, above, behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005811/000.jpg", + "spar_bench/sample_005811/001.jpg", + "spar_bench/sample_005811/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5812, + "data_source": "SPAR-Bench", + "question": "Where is chair (bbox) found relative to the main viewpoint of the observer? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , below, front\nB. left, below, front\nC. , below, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005812/000.jpg", + "spar_bench/sample_005812/001.jpg", + "spar_bench/sample_005812/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5813, + "data_source": "SPAR-Bench", + "question": "In what direction does object bench (bbox) appear from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, \nB. left, below, front\nC. left, below, behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005813/000.jpg", + "spar_bench/sample_005813/001.jpg", + "spar_bench/sample_005813/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5814, + "data_source": "SPAR-Bench", + "question": "Describe the location of object curtain (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, front\nB. , below, front\nC. left, below, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005814/000.jpg", + "spar_bench/sample_005814/001.jpg", + "spar_bench/sample_005814/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5815, + "data_source": "SPAR-Bench", + "question": "In the observer's frame of reference, where is armchair (bbox) positioned? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, behind\nB. left, , behind\nC. right, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005815/000.jpg", + "spar_bench/sample_005815/001.jpg", + "spar_bench/sample_005815/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5816, + "data_source": "SPAR-Bench", + "question": "Relative to the observer's main perspective, what is the position of object picture (bbox)? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , above, front\nB. left, , front\nC. left, below, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005816/000.jpg", + "spar_bench/sample_005816/001.jpg", + "spar_bench/sample_005816/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5817, + "data_source": "SPAR-Bench", + "question": "Where is bathroom stall door (bbox) found relative to the main viewpoint of the observer? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, behind\nB. , below, front\nC. left, , behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005817/000.jpg", + "spar_bench/sample_005817/001.jpg", + "spar_bench/sample_005817/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5818, + "data_source": "SPAR-Bench", + "question": "How is object toilet paper (bbox) oriented relative to the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, behind\nB. , above, front\nC. right, , behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005818/000.jpg", + "spar_bench/sample_005818/001.jpg", + "spar_bench/sample_005818/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5819, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is object bed (bbox) located? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, \nB. left, below, front\nC. right, below, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005819/000.jpg", + "spar_bench/sample_005819/001.jpg", + "spar_bench/sample_005819/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5820, + "data_source": "SPAR-Bench", + "question": "Where does object ottoman (bbox) appear relative to the observer's main viewpoint? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , front\nB. right, below, front\nC. left, above, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005820/000.jpg", + "spar_bench/sample_005820/001.jpg", + "spar_bench/sample_005820/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5821, + "data_source": "SPAR-Bench", + "question": "In relation to the observer, where is trash can (bbox) positioned in the three images? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, below, front\nB. left, below, \nC. , above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005821/000.jpg", + "spar_bench/sample_005821/001.jpg", + "spar_bench/sample_005821/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5822, + "data_source": "SPAR-Bench", + "question": "Where is object shelf (bbox) situated when viewed from the observer\u2019s primary angle? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, , front\nB. , above, behind\nC. right, , behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005822/000.jpg", + "spar_bench/sample_005822/001.jpg", + "spar_bench/sample_005822/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5823, + "data_source": "SPAR-Bench", + "question": "What is the relative location of object bucket (bbox) in relation to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, front\nB. left, , front\nC. left, below, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005823/000.jpg", + "spar_bench/sample_005823/001.jpg", + "spar_bench/sample_005823/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5824, + "data_source": "SPAR-Bench", + "question": "What is the spatial direction of object shelf (bbox) from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, \nB. right, , front\nC. right, above, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005824/000.jpg", + "spar_bench/sample_005824/001.jpg", + "spar_bench/sample_005824/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5825, + "data_source": "SPAR-Bench", + "question": "Considering the observer\u2019s viewpoint, where is trash can (bbox) placed in the three images? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, front\nB. , above, front\nC. left, , front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005825/000.jpg", + "spar_bench/sample_005825/001.jpg", + "spar_bench/sample_005825/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5826, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, what is the position of object mat (bbox)? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, behind\nB. , above, behind\nC. left, above, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005826/000.jpg", + "spar_bench/sample_005826/001.jpg", + "spar_bench/sample_005826/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5827, + "data_source": "SPAR-Bench", + "question": "Where is object chair (bbox) situated when viewed from the observer\u2019s primary angle? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, \nB. , below, behind\nC. left, below, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005827/000.jpg", + "spar_bench/sample_005827/001.jpg", + "spar_bench/sample_005827/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5828, + "data_source": "SPAR-Bench", + "question": "How is monitor (bbox) oriented with respect to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , front\nB. left, below, front\nC. left, above, behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005828/000.jpg", + "spar_bench/sample_005828/001.jpg", + "spar_bench/sample_005828/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5829, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, describe the spatial location of table (bbox) in the scene. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , front\nB. right, below, front\nC. left, , front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005829/000.jpg", + "spar_bench/sample_005829/001.jpg", + "spar_bench/sample_005829/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5830, + "data_source": "SPAR-Bench", + "question": "Relative to the observer's view, in which direction is object kitchen cabinet (bbox) located? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, \nB. right, , behind\nC. right, above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005830/000.jpg", + "spar_bench/sample_005830/001.jpg", + "spar_bench/sample_005830/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5831, + "data_source": "SPAR-Bench", + "question": "In what direction is chair (bbox) placed as seen from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , below, front\nB. left, , behind\nC. left, below, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005831/000.jpg", + "spar_bench/sample_005831/001.jpg", + "spar_bench/sample_005831/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5832, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, in what direction can picture (bbox) be observed? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , above, behind\nB. , below, front\nC. right, , behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005832/000.jpg", + "spar_bench/sample_005832/001.jpg", + "spar_bench/sample_005832/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5833, + "data_source": "SPAR-Bench", + "question": "What is the spatial direction of object bathroom stall (bbox) from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, \nB. left, below, front\nC. left, , front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005833/000.jpg", + "spar_bench/sample_005833/001.jpg", + "spar_bench/sample_005833/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5834, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, where can chair (bbox) be found in the three images? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , below, front\nB. left, , front\nC. left, below, behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005834/000.jpg", + "spar_bench/sample_005834/001.jpg", + "spar_bench/sample_005834/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5835, + "data_source": "SPAR-Bench", + "question": "Describe the location of object breakfast bar (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, front\nB. right, below, behind\nC. right, below, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005835/000.jpg", + "spar_bench/sample_005835/001.jpg", + "spar_bench/sample_005835/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5836, + "data_source": "SPAR-Bench", + "question": "In the observer's perspective, where is object chair (bbox) positioned in the three images? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, front\nB. left, below, front\nC. right, , behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005836/000.jpg", + "spar_bench/sample_005836/001.jpg", + "spar_bench/sample_005836/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5837, + "data_source": "SPAR-Bench", + "question": "Describe the location of object chair (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, front\nB. left, , behind\nC. , below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005837/000.jpg", + "spar_bench/sample_005837/001.jpg", + "spar_bench/sample_005837/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5838, + "data_source": "SPAR-Bench", + "question": "How is washing machine (bbox) oriented with respect to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, behind\nB. left, below, front\nC. right, , front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005838/000.jpg", + "spar_bench/sample_005838/001.jpg", + "spar_bench/sample_005838/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5839, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s viewpoint, describe the direction of backpack (bbox) in the three images. Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, \nB. right, below, front\nC. left, below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005839/000.jpg", + "spar_bench/sample_005839/001.jpg", + "spar_bench/sample_005839/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5840, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, where can trash can (bbox) be found in the three images? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, below, front\nB. , above, front\nC. right, below, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005840/000.jpg", + "spar_bench/sample_005840/001.jpg", + "spar_bench/sample_005840/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5841, + "data_source": "SPAR-Bench", + "question": "Where does object chair (bbox) appear relative to the observer's main viewpoint? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, , front\nB. left, , front\nC. right, below, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005841/000.jpg", + "spar_bench/sample_005841/001.jpg", + "spar_bench/sample_005841/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5842, + "data_source": "SPAR-Bench", + "question": "In what direction is closet door (bbox) placed as seen from the observer's perspective? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. , above, behind\nB. right, , front\nC. left, above, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005842/000.jpg", + "spar_bench/sample_005842/001.jpg", + "spar_bench/sample_005842/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5843, + "data_source": "SPAR-Bench", + "question": "In the observer's frame of reference, where is books (bbox) positioned? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, behind\nB. right, below, front\nC. left, below, behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005843/000.jpg", + "spar_bench/sample_005843/001.jpg", + "spar_bench/sample_005843/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5844, + "data_source": "SPAR-Bench", + "question": "What is the relative location of object chair (bbox) in relation to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, front\nB. , below, behind\nC. left, below, \nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005844/000.jpg", + "spar_bench/sample_005844/001.jpg", + "spar_bench/sample_005844/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5845, + "data_source": "SPAR-Bench", + "question": "How is object fan (bbox) oriented relative to the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, \nB. right, below, front\nC. , below, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005845/000.jpg", + "spar_bench/sample_005845/001.jpg", + "spar_bench/sample_005845/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5846, + "data_source": "SPAR-Bench", + "question": "From the main viewing angle, what is the spatial position of object closet door (bbox)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, behind\nB. right, above, \nC. left, , front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005846/000.jpg", + "spar_bench/sample_005846/001.jpg", + "spar_bench/sample_005846/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5847, + "data_source": "SPAR-Bench", + "question": "In the given three images, describe the spatial position of towel (bbox) relative to the observer. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, behind\nB. , above, front\nC. left, , front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005847/000.jpg", + "spar_bench/sample_005847/001.jpg", + "spar_bench/sample_005847/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5848, + "data_source": "SPAR-Bench", + "question": "Considering the observer's main viewpoint, where is desk (bbox) located in the scene? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, behind\nB. , above, behind\nC. right, below, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005848/000.jpg", + "spar_bench/sample_005848/001.jpg", + "spar_bench/sample_005848/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5849, + "data_source": "SPAR-Bench", + "question": "Relative to the observer's view, in which direction is object computer tower (bbox) located? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, \nB. left, above, front\nC. left, below, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005849/000.jpg", + "spar_bench/sample_005849/001.jpg", + "spar_bench/sample_005849/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5850, + "data_source": "SPAR-Bench", + "question": "Relative to the observer's view, in which direction is object fan (bbox) located? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, front\nB. right, , behind\nC. , below, behind\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005850/000.jpg", + "spar_bench/sample_005850/001.jpg", + "spar_bench/sample_005850/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5851, + "data_source": "SPAR-Bench", + "question": "Describe the position of object monitor (bbox) as viewed from the observer's perspective. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , behind\nB. , above, behind\nC. right, below, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005851/000.jpg", + "spar_bench/sample_005851/001.jpg", + "spar_bench/sample_005851/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5852, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, where can chair (bbox) be found in the three images? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , front\nB. , below, behind\nC. , above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005852/000.jpg", + "spar_bench/sample_005852/001.jpg", + "spar_bench/sample_005852/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5853, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, what is the position of object chair (bbox)? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, \nB. left, below, front\nC. right, , front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005853/000.jpg", + "spar_bench/sample_005853/001.jpg", + "spar_bench/sample_005853/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5854, + "data_source": "SPAR-Bench", + "question": "What is the direction of object copier (bbox) relative to the observer's primary angle? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , below, front\nB. right, below, front\nC. left, below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005854/000.jpg", + "spar_bench/sample_005854/001.jpg", + "spar_bench/sample_005854/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5855, + "data_source": "SPAR-Bench", + "question": "Considering the observer\u2019s viewpoint, where is toilet (bbox) placed in the three images? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, , behind\nB. , below, behind\nC. , below, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005855/000.jpg", + "spar_bench/sample_005855/001.jpg", + "spar_bench/sample_005855/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5856, + "data_source": "SPAR-Bench", + "question": "As seen by the observer, where is laptop (bbox) located in the three images? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, front\nB. , below, front\nC. right, below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005856/000.jpg", + "spar_bench/sample_005856/001.jpg", + "spar_bench/sample_005856/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5857, + "data_source": "SPAR-Bench", + "question": "Where does object pillow (bbox) appear relative to the observer's main viewpoint? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, front\nB. left, below, front\nC. right, below, \nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005857/000.jpg", + "spar_bench/sample_005857/001.jpg", + "spar_bench/sample_005857/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5858, + "data_source": "SPAR-Bench", + "question": "Where can object monitor (bbox) be seen in relation to the observer\u2019s viewing perspective? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , above, front\nB. right, above, \nC. right, below, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005858/000.jpg", + "spar_bench/sample_005858/001.jpg", + "spar_bench/sample_005858/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5859, + "data_source": "SPAR-Bench", + "question": "As viewed from the observer's perspective, where is object monitor (bbox) located? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , below, front\nB. left, below, front\nC. left, above, behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005859/000.jpg", + "spar_bench/sample_005859/001.jpg", + "spar_bench/sample_005859/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5860, + "data_source": "SPAR-Bench", + "question": "How is object picture (bbox) placed with respect to the observer's reference point? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , above, front\nB. left, below, \nC. right, above, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005860/000.jpg", + "spar_bench/sample_005860/001.jpg", + "spar_bench/sample_005860/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5861, + "data_source": "SPAR-Bench", + "question": "Describe the relative position of object monitor (bbox) as observed from the viewer's angle. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, behind\nB. left, below, front\nC. right, above, \nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005861/000.jpg", + "spar_bench/sample_005861/001.jpg", + "spar_bench/sample_005861/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5862, + "data_source": "SPAR-Bench", + "question": "In what direction is cabinet (bbox) placed as seen from the observer's perspective? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, below, \nB. right, above, front\nC. left, , behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005862/000.jpg", + "spar_bench/sample_005862/001.jpg", + "spar_bench/sample_005862/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5863, + "data_source": "SPAR-Bench", + "question": "In the observer's perspective, where is object crate (bbox) positioned in the three images? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, behind\nB. right, below, front\nC. right, below, \nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005863/000.jpg", + "spar_bench/sample_005863/001.jpg", + "spar_bench/sample_005863/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5864, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where does object table (bbox) appear in the scene? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, front\nB. right, below, front\nC. left, below, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005864/000.jpg", + "spar_bench/sample_005864/001.jpg", + "spar_bench/sample_005864/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5865, + "data_source": "SPAR-Bench", + "question": "Where does laptop (bbox) appear to be located from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, \nB. right, , front\nC. left, below, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005865/000.jpg", + "spar_bench/sample_005865/001.jpg", + "spar_bench/sample_005865/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5866, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, in what direction can armchair (bbox) be observed? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , below, front\nB. right, , behind\nC. right, above, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005866/000.jpg", + "spar_bench/sample_005866/001.jpg", + "spar_bench/sample_005866/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5867, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, in what direction can chair (bbox) be observed? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , below, front\nB. , below, behind\nC. right, below, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005867/000.jpg", + "spar_bench/sample_005867/001.jpg", + "spar_bench/sample_005867/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5868, + "data_source": "SPAR-Bench", + "question": "How is object backpack (bbox) placed with respect to the observer's reference point? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, front\nB. left, below, behind\nC. right, above, \nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005868/000.jpg", + "spar_bench/sample_005868/001.jpg", + "spar_bench/sample_005868/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5869, + "data_source": "SPAR-Bench", + "question": "In the observer's frame of reference, where is bag (bbox) positioned? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, behind\nB. left, above, \nC. right, below, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005869/000.jpg", + "spar_bench/sample_005869/001.jpg", + "spar_bench/sample_005869/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5870, + "data_source": "SPAR-Bench", + "question": "How is object toilet (bbox) situated with respect to the observer\u2019s main viewpoint? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, \nB. right, below, front\nC. right, above, behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005870/000.jpg", + "spar_bench/sample_005870/001.jpg", + "spar_bench/sample_005870/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5871, + "data_source": "SPAR-Bench", + "question": "Relative to the observer's view, in which direction is object bathtub (bbox) located? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, front\nB. right, below, front\nC. left, , behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005871/000.jpg", + "spar_bench/sample_005871/001.jpg", + "spar_bench/sample_005871/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5872, + "data_source": "SPAR-Bench", + "question": "From the main viewing angle, what is the spatial position of object pillow (bbox)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, front\nB. right, below, behind\nC. , below, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005872/000.jpg", + "spar_bench/sample_005872/001.jpg", + "spar_bench/sample_005872/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5873, + "data_source": "SPAR-Bench", + "question": "Describe the location of object trash can (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, front\nB. left, below, behind\nC. , above, front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005873/000.jpg", + "spar_bench/sample_005873/001.jpg", + "spar_bench/sample_005873/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5874, + "data_source": "SPAR-Bench", + "question": "In the observer's frame of reference, where is mattress (bbox) positioned? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, front\nB. right, above, behind\nC. left, , behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005874/000.jpg", + "spar_bench/sample_005874/001.jpg", + "spar_bench/sample_005874/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5875, + "data_source": "SPAR-Bench", + "question": "Where is picture (bbox) found relative to the main viewpoint of the observer? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, behind\nB. right, above, front\nC. left, above, \nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005875/000.jpg", + "spar_bench/sample_005875/001.jpg", + "spar_bench/sample_005875/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5876, + "data_source": "SPAR-Bench", + "question": "Relative to the observer's main perspective, what is the position of object chair (bbox)? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, \nB. , above, behind\nC. left, below, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005876/000.jpg", + "spar_bench/sample_005876/001.jpg", + "spar_bench/sample_005876/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5877, + "data_source": "SPAR-Bench", + "question": "How is object pipe (bbox) situated with respect to the observer\u2019s main viewpoint? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, front\nB. right, below, \nC. , below, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005877/000.jpg", + "spar_bench/sample_005877/001.jpg", + "spar_bench/sample_005877/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5878, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s primary angle, what is the position of object toilet (bbox)? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, behind\nB. , below, front\nC. left, below, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005878/000.jpg", + "spar_bench/sample_005878/001.jpg", + "spar_bench/sample_005878/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5879, + "data_source": "SPAR-Bench", + "question": "What is the direction of object table (bbox) relative to the observer's primary angle? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , behind\nB. right, above, front\nC. right, below, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005879/000.jpg", + "spar_bench/sample_005879/001.jpg", + "spar_bench/sample_005879/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5880, + "data_source": "SPAR-Bench", + "question": "What is the position of drawer (bbox) as seen from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, \nB. right, below, front\nC. left, below, \nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005880/000.jpg", + "spar_bench/sample_005880/001.jpg", + "spar_bench/sample_005880/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5881, + "data_source": "SPAR-Bench", + "question": "How is object stool (bbox) oriented relative to the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, front\nB. right, below, \nC. left, below, \nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005881/000.jpg", + "spar_bench/sample_005881/001.jpg", + "spar_bench/sample_005881/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5882, + "data_source": "SPAR-Bench", + "question": "Where does object armchair (bbox) appear relative to the observer's main viewpoint? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, front\nB. left, above, \nC. left, , behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005882/000.jpg", + "spar_bench/sample_005882/001.jpg", + "spar_bench/sample_005882/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5883, + "data_source": "SPAR-Bench", + "question": "Where can backpack (bbox) be found when considering the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , below, front\nB. left, above, front\nC. left, below, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005883/000.jpg", + "spar_bench/sample_005883/001.jpg", + "spar_bench/sample_005883/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5884, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, what is the position of object bathroom vanity (bbox)? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, \nB. left, above, front\nC. left, below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005884/000.jpg", + "spar_bench/sample_005884/001.jpg", + "spar_bench/sample_005884/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5885, + "data_source": "SPAR-Bench", + "question": "How is object shelf (bbox) oriented relative to the observer's perspective? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , below, front\nB. right, above, front\nC. right, above, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005885/000.jpg", + "spar_bench/sample_005885/001.jpg", + "spar_bench/sample_005885/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5886, + "data_source": "SPAR-Bench", + "question": "Where does object chair (bbox) appear relative to the observer's main viewpoint? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , behind\nB. left, below, front\nC. left, below, \nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005886/000.jpg", + "spar_bench/sample_005886/001.jpg", + "spar_bench/sample_005886/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5887, + "data_source": "SPAR-Bench", + "question": "What is the relative location of object toilet paper dispenser (bbox) in relation to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , below, front\nB. left, , front\nC. , above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005887/000.jpg", + "spar_bench/sample_005887/001.jpg", + "spar_bench/sample_005887/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5888, + "data_source": "SPAR-Bench", + "question": "As seen by the observer, where is bathroom stall (bbox) located in the three images? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , front\nB. right, , front\nC. , above, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005888/000.jpg", + "spar_bench/sample_005888/001.jpg", + "spar_bench/sample_005888/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5889, + "data_source": "SPAR-Bench", + "question": "Where is object books (bbox) located in relation to the observer\u2019s primary viewing angle? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, front\nB. right, below, front\nC. left, below, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005889/000.jpg", + "spar_bench/sample_005889/001.jpg", + "spar_bench/sample_005889/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5890, + "data_source": "SPAR-Bench", + "question": "In what direction is mouse (bbox) placed as seen from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , behind\nB. left, , front\nC. left, above, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005890/000.jpg", + "spar_bench/sample_005890/001.jpg", + "spar_bench/sample_005890/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5891, + "data_source": "SPAR-Bench", + "question": "Describe the location of object suitcase (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, front\nB. left, above, \nC. left, , behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005891/000.jpg", + "spar_bench/sample_005891/001.jpg", + "spar_bench/sample_005891/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5892, + "data_source": "SPAR-Bench", + "question": "What is the relative location of object bathroom stall (bbox) in relation to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , front\nB. left, above, front\nC. , below, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005892/000.jpg", + "spar_bench/sample_005892/001.jpg", + "spar_bench/sample_005892/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5893, + "data_source": "SPAR-Bench", + "question": "Considering the observer\u2019s viewpoint, where is mirror (bbox) placed in the three images? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, \nB. , below, behind\nC. left, above, behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005893/000.jpg", + "spar_bench/sample_005893/001.jpg", + "spar_bench/sample_005893/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5894, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where can object toilet (bbox) be seen? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, , front\nB. left, below, behind\nC. right, above, front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005894/000.jpg", + "spar_bench/sample_005894/001.jpg", + "spar_bench/sample_005894/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5895, + "data_source": "SPAR-Bench", + "question": "How is object book (bbox) aligned from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, front\nB. , above, front\nC. right, above, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005895/000.jpg", + "spar_bench/sample_005895/001.jpg", + "spar_bench/sample_005895/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5896, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s primary angle, what is the position of object curtains (bbox)? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, front\nB. right, below, front\nC. right, , front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005896/000.jpg", + "spar_bench/sample_005896/001.jpg", + "spar_bench/sample_005896/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5897, + "data_source": "SPAR-Bench", + "question": "Where can shelf (bbox) be found when considering the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , front\nB. left, , front\nC. , below, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005897/000.jpg", + "spar_bench/sample_005897/001.jpg", + "spar_bench/sample_005897/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5898, + "data_source": "SPAR-Bench", + "question": "How is box (bbox) oriented with respect to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, front\nB. right, above, behind\nC. right, above, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005898/000.jpg", + "spar_bench/sample_005898/001.jpg", + "spar_bench/sample_005898/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5899, + "data_source": "SPAR-Bench", + "question": "Where is object sink (bbox) situated when viewed from the observer\u2019s primary angle? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, front\nB. left, , front\nC. right, above, \nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005899/000.jpg", + "spar_bench/sample_005899/001.jpg", + "spar_bench/sample_005899/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5900, + "data_source": "SPAR-Bench", + "question": "Considering the observer's main viewpoint, where is dollhouse (bbox) located in the scene? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, \nB. , below, behind\nC. right, , behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005900/000.jpg", + "spar_bench/sample_005900/001.jpg", + "spar_bench/sample_005900/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5901, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, describe the spatial location of night lamp (bbox) in the scene. Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, behind\nB. left, , behind\nC. right, below, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005901/000.jpg", + "spar_bench/sample_005901/001.jpg", + "spar_bench/sample_005901/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5902, + "data_source": "SPAR-Bench", + "question": "In the observer's frame of reference, where is stair rail (bbox) positioned? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, behind\nB. right, below, \nC. , below, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005902/000.jpg", + "spar_bench/sample_005902/001.jpg", + "spar_bench/sample_005902/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5903, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, what is the position of object cup (bbox)? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, front\nB. left, above, behind\nC. left, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005903/000.jpg", + "spar_bench/sample_005903/001.jpg", + "spar_bench/sample_005903/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5904, + "data_source": "SPAR-Bench", + "question": "From the main perspective of the observer, describe the location of cabinet (bbox). Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, front\nB. right, , behind\nC. right, below, \nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005904/000.jpg", + "spar_bench/sample_005904/001.jpg", + "spar_bench/sample_005904/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5905, + "data_source": "SPAR-Bench", + "question": "Where does object stair rail (bbox) appear relative to the observer's main viewpoint? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. , above, front\nB. left, , behind\nC. right, below, front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005905/000.jpg", + "spar_bench/sample_005905/001.jpg", + "spar_bench/sample_005905/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5906, + "data_source": "SPAR-Bench", + "question": "Where is object sink (bbox) situated when viewed from the observer\u2019s primary angle? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, \nB. left, , front\nC. right, , behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005906/000.jpg", + "spar_bench/sample_005906/001.jpg", + "spar_bench/sample_005906/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5907, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, where can table (bbox) be found in the three images? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , below, behind\nB. right, , front\nC. left, below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005907/000.jpg", + "spar_bench/sample_005907/001.jpg", + "spar_bench/sample_005907/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5908, + "data_source": "SPAR-Bench", + "question": "Where does object chair (bbox) appear relative to the observer's main viewpoint? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, front\nB. left, above, front\nC. left, above, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005908/000.jpg", + "spar_bench/sample_005908/001.jpg", + "spar_bench/sample_005908/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5909, + "data_source": "SPAR-Bench", + "question": "Where can laundry hamper (bbox) be found when considering the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, behind\nB. , below, behind\nC. right, below, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005909/000.jpg", + "spar_bench/sample_005909/001.jpg", + "spar_bench/sample_005909/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5910, + "data_source": "SPAR-Bench", + "question": "Considering the observer's main viewpoint, where is books (bbox) located in the scene? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, front\nB. , below, front\nC. right, above, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005910/000.jpg", + "spar_bench/sample_005910/001.jpg", + "spar_bench/sample_005910/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5911, + "data_source": "SPAR-Bench", + "question": "What is the position of whiteboard (bbox) as seen from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , behind\nB. left, above, front\nC. right, , front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005911/000.jpg", + "spar_bench/sample_005911/001.jpg", + "spar_bench/sample_005911/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5912, + "data_source": "SPAR-Bench", + "question": "Relative to the main viewing perspective, where is radiator (bbox) located? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , behind\nB. right, below, front\nC. left, above, \nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005912/000.jpg", + "spar_bench/sample_005912/001.jpg", + "spar_bench/sample_005912/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5913, + "data_source": "SPAR-Bench", + "question": "Where is object refrigerator (bbox) situated when viewed from the observer\u2019s primary angle? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, \nB. , below, behind\nC. left, below, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005913/000.jpg", + "spar_bench/sample_005913/001.jpg", + "spar_bench/sample_005913/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5914, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is object towel (bbox) located? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , front\nB. left, below, \nC. right, below, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005914/000.jpg", + "spar_bench/sample_005914/001.jpg", + "spar_bench/sample_005914/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5915, + "data_source": "SPAR-Bench", + "question": "How is object trash can (bbox) placed with respect to the observer's reference point? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, behind\nB. right, below, \nC. right, below, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005915/000.jpg", + "spar_bench/sample_005915/001.jpg", + "spar_bench/sample_005915/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5916, + "data_source": "SPAR-Bench", + "question": "As seen from the observer\u2019s perspective, what is the direction of towel (bbox)? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, , front\nB. right, above, behind\nC. left, below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005916/000.jpg", + "spar_bench/sample_005916/001.jpg", + "spar_bench/sample_005916/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5917, + "data_source": "SPAR-Bench", + "question": "Relative to the main viewing perspective, where is chair (bbox) located? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, front\nB. , above, behind\nC. , above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005917/000.jpg", + "spar_bench/sample_005917/001.jpg", + "spar_bench/sample_005917/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5918, + "data_source": "SPAR-Bench", + "question": "From the main perspective of the observer, describe the location of bed (bbox). Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, front\nB. left, above, behind\nC. left, below, behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005918/000.jpg", + "spar_bench/sample_005918/001.jpg", + "spar_bench/sample_005918/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5919, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where does object chair (bbox) appear in the scene? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, behind\nB. left, below, behind\nC. right, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005919/000.jpg", + "spar_bench/sample_005919/001.jpg", + "spar_bench/sample_005919/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5920, + "data_source": "SPAR-Bench", + "question": "Where is object end table (bbox) situated when viewed from the observer\u2019s primary angle? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, behind\nB. left, above, \nC. right, , behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005920/000.jpg", + "spar_bench/sample_005920/001.jpg", + "spar_bench/sample_005920/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5921, + "data_source": "SPAR-Bench", + "question": "Describe the relative position of object chair (bbox) as observed from the viewer's angle. Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, behind\nB. right, below, front\nC. right, below, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005921/000.jpg", + "spar_bench/sample_005921/001.jpg", + "spar_bench/sample_005921/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5922, + "data_source": "SPAR-Bench", + "question": "What is the position of cabinet (bbox) as seen from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , below, front\nB. left, , behind\nC. left, below, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005922/000.jpg", + "spar_bench/sample_005922/001.jpg", + "spar_bench/sample_005922/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5923, + "data_source": "SPAR-Bench", + "question": "How is object tv (bbox) aligned from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, behind\nB. right, below, front\nC. right, above, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005923/000.jpg", + "spar_bench/sample_005923/001.jpg", + "spar_bench/sample_005923/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5924, + "data_source": "SPAR-Bench", + "question": "Relative to the observer's main perspective, what is the position of object bathroom vanity (bbox)? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, front\nB. , below, behind\nC. left, below, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005924/000.jpg", + "spar_bench/sample_005924/001.jpg", + "spar_bench/sample_005924/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5925, + "data_source": "SPAR-Bench", + "question": "Where does object chair (bbox) appear relative to the observer's main viewpoint? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, front\nB. left, above, behind\nC. right, above, \nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005925/000.jpg", + "spar_bench/sample_005925/001.jpg", + "spar_bench/sample_005925/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5926, + "data_source": "SPAR-Bench", + "question": "Where does suitcase (bbox) appear to be located from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, behind\nB. , below, front\nC. right, above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005926/000.jpg", + "spar_bench/sample_005926/001.jpg", + "spar_bench/sample_005926/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5927, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s viewpoint, describe the direction of sink (bbox) in the three images. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , above, behind\nB. right, below, front\nC. left, below, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005927/000.jpg", + "spar_bench/sample_005927/001.jpg", + "spar_bench/sample_005927/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5928, + "data_source": "SPAR-Bench", + "question": "From the main perspective of the observer, describe the location of sofa chair (bbox). Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, front\nB. left, above, behind\nC. left, , behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005928/000.jpg", + "spar_bench/sample_005928/001.jpg", + "spar_bench/sample_005928/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5929, + "data_source": "SPAR-Bench", + "question": "What is the position of chair (bbox) as seen from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , front\nB. left, , front\nC. left, below, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005929/000.jpg", + "spar_bench/sample_005929/001.jpg", + "spar_bench/sample_005929/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5930, + "data_source": "SPAR-Bench", + "question": "From the main viewing angle, what is the spatial position of object recycling bin (bbox)? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, front\nB. left, , front\nC. right, below, \nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005930/000.jpg", + "spar_bench/sample_005930/001.jpg", + "spar_bench/sample_005930/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5931, + "data_source": "SPAR-Bench", + "question": "Describe the location of object chair (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, front\nB. , below, front\nC. , above, behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005931/000.jpg", + "spar_bench/sample_005931/001.jpg", + "spar_bench/sample_005931/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5932, + "data_source": "SPAR-Bench", + "question": "In the observer's perspective, where is object table (bbox) positioned in the three images? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , behind\nB. left, below, behind\nC. right, below, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005932/000.jpg", + "spar_bench/sample_005932/001.jpg", + "spar_bench/sample_005932/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5933, + "data_source": "SPAR-Bench", + "question": "Describe the location of object couch (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, \nB. left, above, behind\nC. right, below, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005933/000.jpg", + "spar_bench/sample_005933/001.jpg", + "spar_bench/sample_005933/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5934, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, what is the position of object counter (bbox)? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , below, behind\nB. right, below, front\nC. left, below, \nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005934/000.jpg", + "spar_bench/sample_005934/001.jpg", + "spar_bench/sample_005934/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5935, + "data_source": "SPAR-Bench", + "question": "Where does object trash can (bbox) appear relative to the observer's main viewpoint? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, behind\nB. left, below, front\nC. , below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005935/000.jpg", + "spar_bench/sample_005935/001.jpg", + "spar_bench/sample_005935/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5936, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s viewpoint, describe the direction of chair (bbox) in the three images. Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , behind\nB. right, above, behind\nC. right, below, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005936/000.jpg", + "spar_bench/sample_005936/001.jpg", + "spar_bench/sample_005936/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5937, + "data_source": "SPAR-Bench", + "question": "Describe the location of object nightstand (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, front\nB. right, below, front\nC. , above, behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005937/000.jpg", + "spar_bench/sample_005937/001.jpg", + "spar_bench/sample_005937/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5938, + "data_source": "SPAR-Bench", + "question": "What is the position of trash can (bbox) as seen from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, behind\nB. right, , behind\nC. right, above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005938/000.jpg", + "spar_bench/sample_005938/001.jpg", + "spar_bench/sample_005938/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5939, + "data_source": "SPAR-Bench", + "question": "Where can stool (bbox) be found when considering the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, \nB. left, below, front\nC. right, , behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005939/000.jpg", + "spar_bench/sample_005939/001.jpg", + "spar_bench/sample_005939/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5940, + "data_source": "SPAR-Bench", + "question": "Describe the relative position of object decoration (bbox) as observed from the viewer's angle. Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , above, front\nB. left, below, front\nC. right, above, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005940/000.jpg", + "spar_bench/sample_005940/001.jpg", + "spar_bench/sample_005940/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5941, + "data_source": "SPAR-Bench", + "question": "Describe the location of object pillow (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, front\nB. right, below, behind\nC. right, above, \nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005941/000.jpg", + "spar_bench/sample_005941/001.jpg", + "spar_bench/sample_005941/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5942, + "data_source": "SPAR-Bench", + "question": "Describe the relative position of object coffee table (bbox) as observed from the viewer's angle. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , below, behind\nB. , below, front\nC. left, below, \nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005942/000.jpg", + "spar_bench/sample_005942/001.jpg", + "spar_bench/sample_005942/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5943, + "data_source": "SPAR-Bench", + "question": "Relative to the main viewing perspective, where is tissue box (bbox) located? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, front\nB. , above, behind\nC. , above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005943/000.jpg", + "spar_bench/sample_005943/001.jpg", + "spar_bench/sample_005943/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5944, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, describe the spatial location of shelf (bbox) in the scene. Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , front\nB. right, above, front\nC. , below, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005944/000.jpg", + "spar_bench/sample_005944/001.jpg", + "spar_bench/sample_005944/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5945, + "data_source": "SPAR-Bench", + "question": "How is object kitchen cabinets (bbox) aligned from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, front\nB. right, above, behind\nC. left, below, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005945/000.jpg", + "spar_bench/sample_005945/001.jpg", + "spar_bench/sample_005945/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 5946, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s perspective, what is the location of picture (bbox)? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , behind\nB. , below, front\nC. , above, front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005946/000.jpg", + "spar_bench/sample_005946/001.jpg", + "spar_bench/sample_005946/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5947, + "data_source": "SPAR-Bench", + "question": "How is object picture (bbox) aligned from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , below, behind\nB. left, above, front\nC. right, , behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005947/000.jpg", + "spar_bench/sample_005947/001.jpg", + "spar_bench/sample_005947/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5948, + "data_source": "SPAR-Bench", + "question": "From the main viewing angle, what is the spatial position of object chair (bbox)? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, front\nB. , above, behind\nC. right, below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005948/000.jpg", + "spar_bench/sample_005948/001.jpg", + "spar_bench/sample_005948/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5949, + "data_source": "SPAR-Bench", + "question": "In relation to the observer, where is box (bbox) positioned in the three images? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , behind\nB. right, below, behind\nC. right, below, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005949/000.jpg", + "spar_bench/sample_005949/001.jpg", + "spar_bench/sample_005949/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5950, + "data_source": "SPAR-Bench", + "question": "How is object box (bbox) aligned from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, front\nB. right, above, behind\nC. left, , front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005950/000.jpg", + "spar_bench/sample_005950/001.jpg", + "spar_bench/sample_005950/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5951, + "data_source": "SPAR-Bench", + "question": "Describe the location of object table (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, behind\nB. , above, front\nC. left, below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005951/000.jpg", + "spar_bench/sample_005951/001.jpg", + "spar_bench/sample_005951/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5952, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, what is the position of object blanket (bbox)? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, front\nB. left, below, behind\nC. right, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005952/000.jpg", + "spar_bench/sample_005952/001.jpg", + "spar_bench/sample_005952/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5953, + "data_source": "SPAR-Bench", + "question": "Where can computer tower (bbox) be found when considering the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, front\nB. left, below, front\nC. , below, behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005953/000.jpg", + "spar_bench/sample_005953/001.jpg", + "spar_bench/sample_005953/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5954, + "data_source": "SPAR-Bench", + "question": "In the observer's perspective, where is object structure (bbox) positioned in the three images? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, , behind\nB. right, above, front\nC. right, below, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005954/000.jpg", + "spar_bench/sample_005954/001.jpg", + "spar_bench/sample_005954/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5955, + "data_source": "SPAR-Bench", + "question": "How is object monitor (bbox) aligned from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, below, behind\nB. , below, behind\nC. right, below, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005955/000.jpg", + "spar_bench/sample_005955/001.jpg", + "spar_bench/sample_005955/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5956, + "data_source": "SPAR-Bench", + "question": "Where does window (bbox) appear to be located from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , front\nB. left, above, \nC. right, above, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005956/000.jpg", + "spar_bench/sample_005956/001.jpg", + "spar_bench/sample_005956/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5957, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is object photocopy machine (bbox) located? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, front\nB. , below, behind\nC. left, below, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005957/000.jpg", + "spar_bench/sample_005957/001.jpg", + "spar_bench/sample_005957/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5958, + "data_source": "SPAR-Bench", + "question": "In what direction is stool (bbox) placed as seen from the observer's perspective? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, behind\nB. right, below, front\nC. right, above, \nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005958/000.jpg", + "spar_bench/sample_005958/001.jpg", + "spar_bench/sample_005958/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5959, + "data_source": "SPAR-Bench", + "question": "Where does table (bbox) appear to be located from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, , front\nB. left, above, front\nC. left, below, front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005959/000.jpg", + "spar_bench/sample_005959/001.jpg", + "spar_bench/sample_005959/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5960, + "data_source": "SPAR-Bench", + "question": "Where is table (bbox) positioned with respect to the observer's viewing angle? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, \nB. right, below, behind\nC. left, below, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005960/000.jpg", + "spar_bench/sample_005960/001.jpg", + "spar_bench/sample_005960/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5961, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, where can smoke detector (bbox) be found in the three images? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, \nB. right, below, behind\nC. left, above, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005961/000.jpg", + "spar_bench/sample_005961/001.jpg", + "spar_bench/sample_005961/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5962, + "data_source": "SPAR-Bench", + "question": "Describe the location of object tap (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, behind\nB. right, above, behind\nC. left, below, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005962/000.jpg", + "spar_bench/sample_005962/001.jpg", + "spar_bench/sample_005962/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5963, + "data_source": "SPAR-Bench", + "question": "How is object plate (bbox) oriented relative to the observer's perspective? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, behind\nB. , below, front\nC. , above, behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005963/000.jpg", + "spar_bench/sample_005963/001.jpg", + "spar_bench/sample_005963/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5964, + "data_source": "SPAR-Bench", + "question": "What is the relative location of object light switch (bbox) in relation to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , below, behind\nB. right, below, front\nC. right, , behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005964/000.jpg", + "spar_bench/sample_005964/001.jpg", + "spar_bench/sample_005964/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5965, + "data_source": "SPAR-Bench", + "question": "What is the position of piano chair (bbox) as seen from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, front\nB. left, above, \nC. left, , behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005965/000.jpg", + "spar_bench/sample_005965/001.jpg", + "spar_bench/sample_005965/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5966, + "data_source": "SPAR-Bench", + "question": "In relation to the observer, where is pot (bbox) positioned in the three images? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, \nB. left, above, \nC. right, above, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005966/000.jpg", + "spar_bench/sample_005966/001.jpg", + "spar_bench/sample_005966/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5967, + "data_source": "SPAR-Bench", + "question": "In what direction does object power sockets (bbox) appear from the observer's perspective? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , above, front\nB. left, above, front\nC. right, below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005967/000.jpg", + "spar_bench/sample_005967/001.jpg", + "spar_bench/sample_005967/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5968, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where does object mug (bbox) appear in the scene? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, front\nB. left, below, \nC. left, below, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005968/000.jpg", + "spar_bench/sample_005968/001.jpg", + "spar_bench/sample_005968/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5969, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, where can shelf (bbox) be found in the three images? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, front\nB. right, above, behind\nC. left, below, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005969/000.jpg", + "spar_bench/sample_005969/001.jpg", + "spar_bench/sample_005969/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5970, + "data_source": "SPAR-Bench", + "question": "How is object telephone (bbox) placed with respect to the observer's reference point? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, behind\nB. left, below, \nC. left, , front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005970/000.jpg", + "spar_bench/sample_005970/001.jpg", + "spar_bench/sample_005970/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5971, + "data_source": "SPAR-Bench", + "question": "Describe the location of object curtain (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , above, behind\nB. right, , front\nC. left, above, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005971/000.jpg", + "spar_bench/sample_005971/001.jpg", + "spar_bench/sample_005971/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5972, + "data_source": "SPAR-Bench", + "question": "Where is office chair (bbox) positioned with respect to the observer's viewing angle? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , below, behind\nB. , above, behind\nC. , below, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005972/000.jpg", + "spar_bench/sample_005972/001.jpg", + "spar_bench/sample_005972/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5973, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, what is the position of object power sockets (bbox)? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, \nB. left, below, \nC. left, above, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005973/000.jpg", + "spar_bench/sample_005973/001.jpg", + "spar_bench/sample_005973/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5974, + "data_source": "SPAR-Bench", + "question": "Describe the location of object scissors (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, front\nB. right, above, behind\nC. , above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005974/000.jpg", + "spar_bench/sample_005974/001.jpg", + "spar_bench/sample_005974/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5975, + "data_source": "SPAR-Bench", + "question": "Where is power socket (bbox) positioned with respect to the observer's viewing angle? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, , front\nB. right, below, \nC. left, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005975/000.jpg", + "spar_bench/sample_005975/001.jpg", + "spar_bench/sample_005975/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5976, + "data_source": "SPAR-Bench", + "question": "Considering the observer\u2019s viewpoint, where is air conditioner (bbox) placed in the three images? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, front\nB. right, , front\nC. left, below, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005976/000.jpg", + "spar_bench/sample_005976/001.jpg", + "spar_bench/sample_005976/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5977, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, where can power sockets (bbox) be found in the three images? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, \nB. left, above, \nC. left, below, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005977/000.jpg", + "spar_bench/sample_005977/001.jpg", + "spar_bench/sample_005977/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5978, + "data_source": "SPAR-Bench", + "question": "In what direction does object box (bbox) appear from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , above, front\nB. left, above, \nC. left, above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005978/000.jpg", + "spar_bench/sample_005978/001.jpg", + "spar_bench/sample_005978/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5979, + "data_source": "SPAR-Bench", + "question": "Describe the location of object toilet paper (bbox) based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , behind\nB. , above, front\nC. right, above, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005979/000.jpg", + "spar_bench/sample_005979/001.jpg", + "spar_bench/sample_005979/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5980, + "data_source": "SPAR-Bench", + "question": "Where does cable duct (bbox) appear to be located from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, front\nB. , above, front\nC. right, above, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005980/000.jpg", + "spar_bench/sample_005980/001.jpg", + "spar_bench/sample_005980/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5981, + "data_source": "SPAR-Bench", + "question": "In what direction is board (bbox) placed as seen from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, below, front\nB. left, below, behind\nC. left, below, \nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005981/000.jpg", + "spar_bench/sample_005981/001.jpg", + "spar_bench/sample_005981/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5982, + "data_source": "SPAR-Bench", + "question": "Where can box (bbox) be found when considering the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, front\nB. left, above, front\nC. left, , front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005982/000.jpg", + "spar_bench/sample_005982/001.jpg", + "spar_bench/sample_005982/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5983, + "data_source": "SPAR-Bench", + "question": "Relative to the main viewing perspective, where is paper towel (bbox) located? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, above, front\nB. , below, behind\nC. left, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005983/000.jpg", + "spar_bench/sample_005983/001.jpg", + "spar_bench/sample_005983/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5984, + "data_source": "SPAR-Bench", + "question": "In the observer's frame of reference, where is pipe (bbox) positioned? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, \nB. right, below, \nC. left, below, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005984/000.jpg", + "spar_bench/sample_005984/001.jpg", + "spar_bench/sample_005984/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5985, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s perspective, what is the location of pumper (bbox)? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, above, \nB. , below, behind\nC. right, , behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005985/000.jpg", + "spar_bench/sample_005985/001.jpg", + "spar_bench/sample_005985/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5986, + "data_source": "SPAR-Bench", + "question": "From the main perspective of the observer, describe the location of bottle (bbox). Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , below, behind\nB. right, below, front\nC. right, , front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005986/000.jpg", + "spar_bench/sample_005986/001.jpg", + "spar_bench/sample_005986/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5987, + "data_source": "SPAR-Bench", + "question": "In what direction does object coat rack (bbox) appear from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, below, \nB. left, above, \nC. right, , behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005987/000.jpg", + "spar_bench/sample_005987/001.jpg", + "spar_bench/sample_005987/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5988, + "data_source": "SPAR-Bench", + "question": "How is object tv receiver (bbox) oriented relative to the observer's perspective? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, front\nB. right, below, behind\nC. right, , behind\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005988/000.jpg", + "spar_bench/sample_005988/001.jpg", + "spar_bench/sample_005988/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5989, + "data_source": "SPAR-Bench", + "question": "Relative to the main viewing perspective, where is faucet (bbox) located? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, front\nB. left, above, behind\nC. right, , front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005989/000.jpg", + "spar_bench/sample_005989/001.jpg", + "spar_bench/sample_005989/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5990, + "data_source": "SPAR-Bench", + "question": "From the main viewing angle, what is the spatial position of object chair (bbox)? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , front\nB. right, below, front\nC. , above, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005990/000.jpg", + "spar_bench/sample_005990/001.jpg", + "spar_bench/sample_005990/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5991, + "data_source": "SPAR-Bench", + "question": "Considering the observer\u2019s viewpoint, where is post it (bbox) placed in the three images? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, \nB. right, , behind\nC. left, above, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005991/000.jpg", + "spar_bench/sample_005991/001.jpg", + "spar_bench/sample_005991/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5992, + "data_source": "SPAR-Bench", + "question": "What is the relative location of object paper (bbox) in relation to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, front\nB. , below, front\nC. left, below, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005992/000.jpg", + "spar_bench/sample_005992/001.jpg", + "spar_bench/sample_005992/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5993, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is object table (bbox) located? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, behind\nB. , above, front\nC. left, below, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005993/000.jpg", + "spar_bench/sample_005993/001.jpg", + "spar_bench/sample_005993/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5994, + "data_source": "SPAR-Bench", + "question": "Describe the spatial position of towel (bbox) when viewed from the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, behind\nB. right, , front\nC. , above, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005994/000.jpg", + "spar_bench/sample_005994/001.jpg", + "spar_bench/sample_005994/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5995, + "data_source": "SPAR-Bench", + "question": "How is object office chair (bbox) aligned from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , above, behind\nB. right, above, \nC. right, below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005995/000.jpg", + "spar_bench/sample_005995/001.jpg", + "spar_bench/sample_005995/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5996, + "data_source": "SPAR-Bench", + "question": "Where does table (bbox) appear to be located from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, below, behind\nB. , below, behind\nC. left, above, \nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005996/000.jpg", + "spar_bench/sample_005996/001.jpg", + "spar_bench/sample_005996/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5997, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, what is the position of object chopping board (bbox)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, front\nB. left, below, \nC. left, above, behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005997/000.jpg", + "spar_bench/sample_005997/001.jpg", + "spar_bench/sample_005997/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5998, + "data_source": "SPAR-Bench", + "question": "In the observer's frame of reference, where is box (bbox) positioned? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , below, behind\nB. , below, front\nC. right, below, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005998/000.jpg", + "spar_bench/sample_005998/001.jpg", + "spar_bench/sample_005998/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 5999, + "data_source": "SPAR-Bench", + "question": "How is object picture (bbox) placed with respect to the observer's reference point? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , behind\nB. right, above, front\nC. , below, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_005999/000.jpg", + "spar_bench/sample_005999/001.jpg", + "spar_bench/sample_005999/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6000, + "data_source": "SPAR-Bench", + "question": "In what direction is hammer (bbox) placed as seen from the observer's perspective? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, below, front\nB. , below, front\nC. right, above, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006000/000.jpg", + "spar_bench/sample_006000/001.jpg", + "spar_bench/sample_006000/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6001, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, describe the spatial location of post-it (bbox) in the scene. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, \nB. right, below, behind\nC. right, below, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006001/000.jpg", + "spar_bench/sample_006001/001.jpg", + "spar_bench/sample_006001/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6002, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where does object toilet brush (bbox) appear in the scene? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , below, behind\nB. left, above, \nC. left, , behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006002/000.jpg", + "spar_bench/sample_006002/001.jpg", + "spar_bench/sample_006002/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6003, + "data_source": "SPAR-Bench", + "question": "Where is light switch (bbox) found relative to the main viewpoint of the observer? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, behind\nB. right, , front\nC. right, below, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006003/000.jpg", + "spar_bench/sample_006003/001.jpg", + "spar_bench/sample_006003/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6004, + "data_source": "SPAR-Bench", + "question": "Relative to the observer's view, in which direction is object sofa (bbox) located? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, front\nB. , below, behind\nC. right, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006004/000.jpg", + "spar_bench/sample_006004/001.jpg", + "spar_bench/sample_006004/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6005, + "data_source": "SPAR-Bench", + "question": "As viewed from the observer's perspective, where is object bottle (bbox) located? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, below, front\nB. right, above, behind\nC. , above, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006005/000.jpg", + "spar_bench/sample_006005/001.jpg", + "spar_bench/sample_006005/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6006, + "data_source": "SPAR-Bench", + "question": "Where is box (bbox) positioned with respect to the observer's viewing angle? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, front\nB. left, , behind\nC. right, , behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006006/000.jpg", + "spar_bench/sample_006006/001.jpg", + "spar_bench/sample_006006/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6007, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s viewpoint, describe the direction of toilet brush (bbox) in the three images. Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , front\nB. left, , behind\nC. left, above, front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006007/000.jpg", + "spar_bench/sample_006007/001.jpg", + "spar_bench/sample_006007/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6008, + "data_source": "SPAR-Bench", + "question": "From the main viewing angle, what is the spatial position of object coax outlet (bbox)? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, behind\nB. , above, behind\nC. right, below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006008/000.jpg", + "spar_bench/sample_006008/001.jpg", + "spar_bench/sample_006008/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6009, + "data_source": "SPAR-Bench", + "question": "How is object chair (bbox) situated with respect to the observer\u2019s main viewpoint? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, \nB. , below, behind\nC. right, below, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006009/000.jpg", + "spar_bench/sample_006009/001.jpg", + "spar_bench/sample_006009/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6010, + "data_source": "SPAR-Bench", + "question": "How is water kettle (bbox) oriented with respect to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, below, front\nB. left, , behind\nC. , above, behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006010/000.jpg", + "spar_bench/sample_006010/001.jpg", + "spar_bench/sample_006010/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6011, + "data_source": "SPAR-Bench", + "question": "Where does cabinet (bbox) appear to be located from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, behind\nB. right, below, front\nC. left, , front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006011/000.jpg", + "spar_bench/sample_006011/001.jpg", + "spar_bench/sample_006011/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6012, + "data_source": "SPAR-Bench", + "question": "Considering the observer\u2019s viewpoint, where is frame (bbox) placed in the three images? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, front\nB. left, below, \nC. left, below, behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006012/000.jpg", + "spar_bench/sample_006012/001.jpg", + "spar_bench/sample_006012/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6013, + "data_source": "SPAR-Bench", + "question": "As viewed from the observer's perspective, where is object plate (bbox) located? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, behind\nB. , below, front\nC. right, below, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006013/000.jpg", + "spar_bench/sample_006013/001.jpg", + "spar_bench/sample_006013/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6014, + "data_source": "SPAR-Bench", + "question": "In what direction does object chair (bbox) appear from the observer's perspective? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, below, front\nB. left, below, front\nC. , above, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006014/000.jpg", + "spar_bench/sample_006014/001.jpg", + "spar_bench/sample_006014/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6015, + "data_source": "SPAR-Bench", + "question": "How is object heater (bbox) placed with respect to the observer's reference point? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, front\nB. left, below, front\nC. left, below, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006015/000.jpg", + "spar_bench/sample_006015/001.jpg", + "spar_bench/sample_006015/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6016, + "data_source": "SPAR-Bench", + "question": "What is the direction of object stool (bbox) relative to the observer's primary angle? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, , front\nB. left, below, front\nC. left, above, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006016/000.jpg", + "spar_bench/sample_006016/001.jpg", + "spar_bench/sample_006016/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6017, + "data_source": "SPAR-Bench", + "question": "In the observer's frame of reference, where is paper stapler (bbox) positioned? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, behind\nB. right, above, front\nC. right, below, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006017/000.jpg", + "spar_bench/sample_006017/001.jpg", + "spar_bench/sample_006017/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6018, + "data_source": "SPAR-Bench", + "question": "What is the direction of object books (bbox) relative to the observer's primary angle? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, below, front\nB. right, below, front\nC. right, , behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006018/000.jpg", + "spar_bench/sample_006018/001.jpg", + "spar_bench/sample_006018/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6019, + "data_source": "SPAR-Bench", + "question": "In relation to the observer, where is table (bbox) positioned in the three images? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, \nB. right, above, front\nC. left, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006019/000.jpg", + "spar_bench/sample_006019/001.jpg", + "spar_bench/sample_006019/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6020, + "data_source": "SPAR-Bench", + "question": "Describe the spatial orientation of object office chair (bbox) relative to the observer. Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, front\nB. left, above, front\nC. right, above, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006020/000.jpg", + "spar_bench/sample_006020/001.jpg", + "spar_bench/sample_006020/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6021, + "data_source": "SPAR-Bench", + "question": "From the main viewing angle, what is the spatial position of object crate (bbox)? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, below, \nB. right, below, front\nC. , below, behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006021/000.jpg", + "spar_bench/sample_006021/001.jpg", + "spar_bench/sample_006021/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6022, + "data_source": "SPAR-Bench", + "question": "As viewed from the observer's perspective, where is object box (bbox) located? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, below, front\nB. left, above, behind\nC. left, above, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006022/000.jpg", + "spar_bench/sample_006022/001.jpg", + "spar_bench/sample_006022/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6023, + "data_source": "SPAR-Bench", + "question": "Where is object office chair (bbox) located in relation to the observer\u2019s primary viewing angle? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, below, front\nB. , above, front\nC. right, , behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006023/000.jpg", + "spar_bench/sample_006023/001.jpg", + "spar_bench/sample_006023/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6024, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s primary angle, what is the position of object pipe (bbox)? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, front\nB. left, below, behind\nC. right, above, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006024/000.jpg", + "spar_bench/sample_006024/001.jpg", + "spar_bench/sample_006024/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6025, + "data_source": "SPAR-Bench", + "question": "How is object table (bbox) situated with respect to the observer\u2019s main viewpoint? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, , front\nB. right, above, \nC. right, below, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006025/000.jpg", + "spar_bench/sample_006025/001.jpg", + "spar_bench/sample_006025/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6026, + "data_source": "SPAR-Bench", + "question": "In the given three images, describe the spatial position of curtain (bbox) relative to the observer. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , front\nB. right, , front\nC. left, below, \nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006026/000.jpg", + "spar_bench/sample_006026/001.jpg", + "spar_bench/sample_006026/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6027, + "data_source": "SPAR-Bench", + "question": "Considering the observer\u2019s viewpoint, where is cup (bbox) placed in the three images? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, front\nB. right, , front\nC. left, above, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006027/000.jpg", + "spar_bench/sample_006027/001.jpg", + "spar_bench/sample_006027/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6028, + "data_source": "SPAR-Bench", + "question": "In what direction does object paper (bbox) appear from the observer's perspective? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, \nB. right, above, \nC. right, above, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006028/000.jpg", + "spar_bench/sample_006028/001.jpg", + "spar_bench/sample_006028/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6029, + "data_source": "SPAR-Bench", + "question": "In the observer's frame of reference, where is chair (bbox) positioned? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, behind\nB. , below, behind\nC. left, below, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006029/000.jpg", + "spar_bench/sample_006029/001.jpg", + "spar_bench/sample_006029/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6030, + "data_source": "SPAR-Bench", + "question": "Describe the position of object cabinet (bbox) as viewed from the observer's perspective. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, behind\nB. right, above, behind\nC. right, , behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006030/000.jpg", + "spar_bench/sample_006030/001.jpg", + "spar_bench/sample_006030/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6031, + "data_source": "SPAR-Bench", + "question": "Considering the observer's main viewpoint, where is shampoo bottle (bbox) located in the scene? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, front\nB. left, above, front\nC. right, below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006031/000.jpg", + "spar_bench/sample_006031/001.jpg", + "spar_bench/sample_006031/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6032, + "data_source": "SPAR-Bench", + "question": "In the observer's frame of reference, where is shower faucet (bbox) positioned? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, front\nB. right, below, front\nC. right, above, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006032/000.jpg", + "spar_bench/sample_006032/001.jpg", + "spar_bench/sample_006032/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6033, + "data_source": "SPAR-Bench", + "question": "In what direction is machine (bbox) placed as seen from the observer's perspective? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, \nB. right, below, front\nC. , above, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006033/000.jpg", + "spar_bench/sample_006033/001.jpg", + "spar_bench/sample_006033/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6034, + "data_source": "SPAR-Bench", + "question": "Where does object monitor (bbox) appear relative to the observer's main viewpoint? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, behind\nB. , below, behind\nC. right, above, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006034/000.jpg", + "spar_bench/sample_006034/001.jpg", + "spar_bench/sample_006034/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6035, + "data_source": "SPAR-Bench", + "question": "In the given three images, describe the spatial position of keyboard (bbox) relative to the observer. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, front\nB. right, above, \nC. right, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006035/000.jpg", + "spar_bench/sample_006035/001.jpg", + "spar_bench/sample_006035/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6036, + "data_source": "SPAR-Bench", + "question": "What is the direction of object office chair (bbox) relative to the observer's primary angle? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, front\nB. right, , behind\nC. left, below, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006036/000.jpg", + "spar_bench/sample_006036/001.jpg", + "spar_bench/sample_006036/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6037, + "data_source": "SPAR-Bench", + "question": "From the main perspective of the observer, describe the location of bathroom counter (bbox). Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, \nB. right, above, behind\nC. left, above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006037/000.jpg", + "spar_bench/sample_006037/001.jpg", + "spar_bench/sample_006037/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6038, + "data_source": "SPAR-Bench", + "question": "What is the spatial direction of object cabinet (bbox) from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, front\nB. right, above, behind\nC. right, above, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006038/000.jpg", + "spar_bench/sample_006038/001.jpg", + "spar_bench/sample_006038/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6039, + "data_source": "SPAR-Bench", + "question": "What is the relative location of object objects (bbox) in relation to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , behind\nB. left, below, \nC. left, above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006039/000.jpg", + "spar_bench/sample_006039/001.jpg", + "spar_bench/sample_006039/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6040, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where does object window (bbox) appear in the scene? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , front\nB. left, below, behind\nC. , above, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006040/000.jpg", + "spar_bench/sample_006040/001.jpg", + "spar_bench/sample_006040/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6041, + "data_source": "SPAR-Bench", + "question": "In what direction does object shoes (bbox) appear from the observer's perspective? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, below, front\nB. , below, front\nC. , above, front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006041/000.jpg", + "spar_bench/sample_006041/001.jpg", + "spar_bench/sample_006041/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6042, + "data_source": "SPAR-Bench", + "question": "What is the direction of object power socket (bbox) relative to the observer's primary angle? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, behind\nB. left, above, \nC. , below, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006042/000.jpg", + "spar_bench/sample_006042/001.jpg", + "spar_bench/sample_006042/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6043, + "data_source": "SPAR-Bench", + "question": "How is shelf (bbox) oriented with respect to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, behind\nB. right, below, \nC. right, , behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006043/000.jpg", + "spar_bench/sample_006043/001.jpg", + "spar_bench/sample_006043/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6044, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, where can chair (bbox) be found in the three images? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, , behind\nB. , below, front\nC. , below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006044/000.jpg", + "spar_bench/sample_006044/001.jpg", + "spar_bench/sample_006044/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6045, + "data_source": "SPAR-Bench", + "question": "What is the position of light switch (bbox) as seen from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , above, front\nB. , above, behind\nC. right, above, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006045/000.jpg", + "spar_bench/sample_006045/001.jpg", + "spar_bench/sample_006045/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6046, + "data_source": "SPAR-Bench", + "question": "In what direction does object photocopy machine (bbox) appear from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, behind\nB. left, below, \nC. left, above, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006046/000.jpg", + "spar_bench/sample_006046/001.jpg", + "spar_bench/sample_006046/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6047, + "data_source": "SPAR-Bench", + "question": "From the main perspective of the observer, describe the location of plate (bbox). Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, \nB. right, below, front\nC. right, above, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006047/000.jpg", + "spar_bench/sample_006047/001.jpg", + "spar_bench/sample_006047/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6048, + "data_source": "SPAR-Bench", + "question": "In relation to the observer, where is sink (bbox) positioned in the three images? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, behind\nB. , below, front\nC. left, above, \nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006048/000.jpg", + "spar_bench/sample_006048/001.jpg", + "spar_bench/sample_006048/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6049, + "data_source": "SPAR-Bench", + "question": "From the main viewing angle, what is the spatial position of object picture (bbox)? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, behind\nB. right, above, front\nC. left, , front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006049/000.jpg", + "spar_bench/sample_006049/001.jpg", + "spar_bench/sample_006049/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6050, + "data_source": "SPAR-Bench", + "question": "What is the spatial direction of object whiteboard (bbox) from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , front\nB. right, above, front\nC. right, below, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006050/000.jpg", + "spar_bench/sample_006050/001.jpg", + "spar_bench/sample_006050/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6051, + "data_source": "SPAR-Bench", + "question": "Where is object picture (bbox) located in relation to the observer\u2019s primary viewing angle? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. , below, behind\nB. , below, front\nC. , above, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006051/000.jpg", + "spar_bench/sample_006051/001.jpg", + "spar_bench/sample_006051/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6052, + "data_source": "SPAR-Bench", + "question": "Relative to the observer's view, in which direction is object structure (bbox) located? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, front\nB. left, below, behind\nC. right, above, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006052/000.jpg", + "spar_bench/sample_006052/001.jpg", + "spar_bench/sample_006052/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6053, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s perspective, what is the location of table (bbox)? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, behind\nB. , above, behind\nC. right, below, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006053/000.jpg", + "spar_bench/sample_006053/001.jpg", + "spar_bench/sample_006053/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6054, + "data_source": "SPAR-Bench", + "question": "In the observer's frame of reference, where is microwave (bbox) positioned? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, behind\nB. right, below, \nC. right, below, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006054/000.jpg", + "spar_bench/sample_006054/001.jpg", + "spar_bench/sample_006054/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6055, + "data_source": "SPAR-Bench", + "question": "Where is keyboard (bbox) found relative to the main viewpoint of the observer? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, behind\nB. , below, front\nC. , below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006055/000.jpg", + "spar_bench/sample_006055/001.jpg", + "spar_bench/sample_006055/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6056, + "data_source": "SPAR-Bench", + "question": "How is object bookshelf (bbox) placed with respect to the observer's reference point? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, behind\nB. left, below, behind\nC. right, above, behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006056/000.jpg", + "spar_bench/sample_006056/001.jpg", + "spar_bench/sample_006056/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6057, + "data_source": "SPAR-Bench", + "question": "What is the relative location of object beanbag (bbox) in relation to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, behind\nB. left, above, behind\nC. , below, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006057/000.jpg", + "spar_bench/sample_006057/001.jpg", + "spar_bench/sample_006057/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6058, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is object window frame (bbox) located? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, , behind\nB. left, , front\nC. right, , behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006058/000.jpg", + "spar_bench/sample_006058/001.jpg", + "spar_bench/sample_006058/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6059, + "data_source": "SPAR-Bench", + "question": "How is broom (bbox) oriented with respect to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , front\nB. , above, behind\nC. left, above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006059/000.jpg", + "spar_bench/sample_006059/001.jpg", + "spar_bench/sample_006059/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6060, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, what is the position of object bottle crate (bbox)? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, above, behind\nB. right, , behind\nC. left, , behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006060/000.jpg", + "spar_bench/sample_006060/001.jpg", + "spar_bench/sample_006060/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6061, + "data_source": "SPAR-Bench", + "question": "Where is water kettle (bbox) positioned with respect to the observer's viewing angle? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, \nB. left, above, behind\nC. right, below, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006061/000.jpg", + "spar_bench/sample_006061/001.jpg", + "spar_bench/sample_006061/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6062, + "data_source": "SPAR-Bench", + "question": "From the main viewing angle, what is the spatial position of object plant pot (bbox)? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, below, front\nB. , below, behind\nC. left, above, behind\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006062/000.jpg", + "spar_bench/sample_006062/001.jpg", + "spar_bench/sample_006062/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6063, + "data_source": "SPAR-Bench", + "question": "What is the spatial direction of object window (bbox) from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , front\nB. left, above, \nC. left, below, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006063/000.jpg", + "spar_bench/sample_006063/001.jpg", + "spar_bench/sample_006063/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6064, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, in what direction can dishwashing sponge (bbox) be observed? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, \nB. left, below, front\nC. , above, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006064/000.jpg", + "spar_bench/sample_006064/001.jpg", + "spar_bench/sample_006064/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6065, + "data_source": "SPAR-Bench", + "question": "From the main viewing angle, what is the spatial position of object computer tower (bbox)? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, front\nB. right, , behind\nC. , above, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006065/000.jpg", + "spar_bench/sample_006065/001.jpg", + "spar_bench/sample_006065/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6066, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where does object picture (bbox) appear in the scene? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, front\nB. right, , front\nC. , above, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006066/000.jpg", + "spar_bench/sample_006066/001.jpg", + "spar_bench/sample_006066/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6067, + "data_source": "SPAR-Bench", + "question": "As seen from the observer\u2019s perspective, what is the direction of chair (bbox)? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , behind\nB. left, below, behind\nC. right, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006067/000.jpg", + "spar_bench/sample_006067/001.jpg", + "spar_bench/sample_006067/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6068, + "data_source": "SPAR-Bench", + "question": "How is box (bbox) oriented with respect to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, front\nB. right, above, front\nC. right, below, behind\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006068/000.jpg", + "spar_bench/sample_006068/001.jpg", + "spar_bench/sample_006068/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6069, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s perspective, what is the location of table (bbox)? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, front\nB. , below, front\nC. left, , front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006069/000.jpg", + "spar_bench/sample_006069/001.jpg", + "spar_bench/sample_006069/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6070, + "data_source": "SPAR-Bench", + "question": "In the observer's perspective, where is object air conditioner (bbox) positioned in the three images? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, front\nB. left, below, \nC. , above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006070/000.jpg", + "spar_bench/sample_006070/001.jpg", + "spar_bench/sample_006070/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6071, + "data_source": "SPAR-Bench", + "question": "In the given three images, describe the spatial position of bowl (bbox) relative to the observer. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , front\nB. left, below, front\nC. , above, behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006071/000.jpg", + "spar_bench/sample_006071/001.jpg", + "spar_bench/sample_006071/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6072, + "data_source": "SPAR-Bench", + "question": "Where is sofa (bbox) found relative to the main viewpoint of the observer? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, front\nB. left, above, \nC. , above, behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006072/000.jpg", + "spar_bench/sample_006072/001.jpg", + "spar_bench/sample_006072/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6073, + "data_source": "SPAR-Bench", + "question": "What is the relative location of object table (bbox) in relation to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , above, front\nB. right, below, front\nC. left, below, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006073/000.jpg", + "spar_bench/sample_006073/001.jpg", + "spar_bench/sample_006073/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6074, + "data_source": "SPAR-Bench", + "question": "Where can tv stand (bbox) be found when considering the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , front\nB. left, below, front\nC. right, above, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006074/000.jpg", + "spar_bench/sample_006074/001.jpg", + "spar_bench/sample_006074/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6075, + "data_source": "SPAR-Bench", + "question": "Where can trash can (bbox) be found when considering the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, front\nB. left, above, front\nC. , above, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006075/000.jpg", + "spar_bench/sample_006075/001.jpg", + "spar_bench/sample_006075/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6076, + "data_source": "SPAR-Bench", + "question": "How is chair (bbox) oriented with respect to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, front\nB. left, above, front\nC. left, below, \nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006076/000.jpg", + "spar_bench/sample_006076/001.jpg", + "spar_bench/sample_006076/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6077, + "data_source": "SPAR-Bench", + "question": "In the given three images, describe the spatial position of kitchen cabinet (bbox) relative to the observer. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, front\nB. , below, front\nC. right, above, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006077/000.jpg", + "spar_bench/sample_006077/001.jpg", + "spar_bench/sample_006077/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6078, + "data_source": "SPAR-Bench", + "question": "Where can window (bbox) be found when considering the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , behind\nB. left, , front\nC. , below, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006078/000.jpg", + "spar_bench/sample_006078/001.jpg", + "spar_bench/sample_006078/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6079, + "data_source": "SPAR-Bench", + "question": "Where is toilet brush (bbox) found relative to the main viewpoint of the observer? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, front\nB. left, below, front\nC. right, below, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006079/000.jpg", + "spar_bench/sample_006079/001.jpg", + "spar_bench/sample_006079/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6080, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where can object smoke detector (bbox) be seen? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, \nB. right, above, front\nC. left, below, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006080/000.jpg", + "spar_bench/sample_006080/001.jpg", + "spar_bench/sample_006080/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6081, + "data_source": "SPAR-Bench", + "question": "How is object whiteboard stand (bbox) aligned from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , behind\nB. left, below, \nC. right, above, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006081/000.jpg", + "spar_bench/sample_006081/001.jpg", + "spar_bench/sample_006081/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6082, + "data_source": "SPAR-Bench", + "question": "Where is joined tables (bbox) found in relation to the observer\u2019s primary perspective? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, \nB. right, below, front\nC. right, above, behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006082/000.jpg", + "spar_bench/sample_006082/001.jpg", + "spar_bench/sample_006082/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6083, + "data_source": "SPAR-Bench", + "question": "As seen by the observer, where is first aid box (bbox) located in the three images? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, behind\nB. left, below, \nC. left, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006083/000.jpg", + "spar_bench/sample_006083/001.jpg", + "spar_bench/sample_006083/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6084, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is object cardboard box (bbox) located? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, front\nB. right, above, front\nC. , below, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006084/000.jpg", + "spar_bench/sample_006084/001.jpg", + "spar_bench/sample_006084/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6085, + "data_source": "SPAR-Bench", + "question": "As seen by the observer, where is chair (bbox) located in the three images? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, \nB. left, below, behind\nC. left, above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006085/000.jpg", + "spar_bench/sample_006085/001.jpg", + "spar_bench/sample_006085/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6086, + "data_source": "SPAR-Bench", + "question": "In relation to the observer, where is office chair (bbox) positioned in the three images? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, , front\nB. right, below, behind\nC. right, above, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006086/000.jpg", + "spar_bench/sample_006086/001.jpg", + "spar_bench/sample_006086/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6087, + "data_source": "SPAR-Bench", + "question": "In what direction is folders (bbox) placed as seen from the observer's perspective? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, \nB. left, below, front\nC. right, above, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006087/000.jpg", + "spar_bench/sample_006087/001.jpg", + "spar_bench/sample_006087/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6088, + "data_source": "SPAR-Bench", + "question": "Where does cardboard box (bbox) appear to be located from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, \nB. right, above, front\nC. , above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006088/000.jpg", + "spar_bench/sample_006088/001.jpg", + "spar_bench/sample_006088/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6089, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where does object cabinet (bbox) appear in the scene? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, front\nB. left, below, \nC. right, below, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006089/000.jpg", + "spar_bench/sample_006089/001.jpg", + "spar_bench/sample_006089/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6090, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s viewpoint, describe the direction of sink (bbox) in the three images. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, front\nB. right, below, front\nC. , above, behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006090/000.jpg", + "spar_bench/sample_006090/001.jpg", + "spar_bench/sample_006090/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6091, + "data_source": "SPAR-Bench", + "question": "Where can desk (bbox) be found when considering the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, front\nB. left, below, front\nC. left, below, behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006091/000.jpg", + "spar_bench/sample_006091/001.jpg", + "spar_bench/sample_006091/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6092, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s primary angle, what is the position of object books (bbox)? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, \nB. right, below, \nC. right, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006092/000.jpg", + "spar_bench/sample_006092/001.jpg", + "spar_bench/sample_006092/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6093, + "data_source": "SPAR-Bench", + "question": "How is object window (bbox) oriented relative to the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , behind\nB. right, above, front\nC. left, , front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006093/000.jpg", + "spar_bench/sample_006093/001.jpg", + "spar_bench/sample_006093/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6094, + "data_source": "SPAR-Bench", + "question": "Where is object book (bbox) located in relation to the observer\u2019s primary viewing angle? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, \nB. right, below, front\nC. left, below, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006094/000.jpg", + "spar_bench/sample_006094/001.jpg", + "spar_bench/sample_006094/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6095, + "data_source": "SPAR-Bench", + "question": "Where can object plant (bbox) be seen in relation to the observer\u2019s viewing perspective? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, \nB. , below, behind\nC. left, below, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006095/000.jpg", + "spar_bench/sample_006095/001.jpg", + "spar_bench/sample_006095/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6096, + "data_source": "SPAR-Bench", + "question": "How is object counter (bbox) placed with respect to the observer's reference point? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, below, front\nB. , above, front\nC. right, above, \nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006096/000.jpg", + "spar_bench/sample_006096/001.jpg", + "spar_bench/sample_006096/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6097, + "data_source": "SPAR-Bench", + "question": "Where does poster (bbox) appear to be located from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, front\nB. left, above, behind\nC. left, below, \nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006097/000.jpg", + "spar_bench/sample_006097/001.jpg", + "spar_bench/sample_006097/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6098, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is object shower curtain (bbox) located? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , behind\nB. right, below, \nC. right, above, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006098/000.jpg", + "spar_bench/sample_006098/001.jpg", + "spar_bench/sample_006098/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6099, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s primary angle, what is the position of object joined tables (bbox)? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, behind\nB. left, below, \nC. right, above, \nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006099/000.jpg", + "spar_bench/sample_006099/001.jpg", + "spar_bench/sample_006099/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6100, + "data_source": "SPAR-Bench", + "question": "From the main viewing angle, what is the spatial position of object cardboard box (bbox)? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, behind\nB. , above, behind\nC. right, below, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006100/000.jpg", + "spar_bench/sample_006100/001.jpg", + "spar_bench/sample_006100/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6101, + "data_source": "SPAR-Bench", + "question": "In relation to the observer, where is power sockets (bbox) positioned in the three images? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, front\nB. right, above, \nC. right, above, behind\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006101/000.jpg", + "spar_bench/sample_006101/001.jpg", + "spar_bench/sample_006101/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6102, + "data_source": "SPAR-Bench", + "question": "Where can object trash can (bbox) be seen in relation to the observer\u2019s viewing perspective? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, front\nB. right, below, front\nC. left, above, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006102/000.jpg", + "spar_bench/sample_006102/001.jpg", + "spar_bench/sample_006102/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6103, + "data_source": "SPAR-Bench", + "question": "Where is monitor (bbox) positioned with respect to the observer's viewing angle? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, behind\nB. left, , front\nC. right, above, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006103/000.jpg", + "spar_bench/sample_006103/001.jpg", + "spar_bench/sample_006103/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6104, + "data_source": "SPAR-Bench", + "question": "From the main viewing angle, what is the spatial position of object guitar (bbox)? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, below, behind\nB. right, above, front\nC. right, below, \nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006104/000.jpg", + "spar_bench/sample_006104/001.jpg", + "spar_bench/sample_006104/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6105, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, what is the position of object book (bbox)? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, behind\nB. right, below, \nC. right, above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006105/000.jpg", + "spar_bench/sample_006105/001.jpg", + "spar_bench/sample_006105/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6106, + "data_source": "SPAR-Bench", + "question": "As viewed from the observer's perspective, where is object headphone (bbox) located? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , above, front\nB. , below, front\nC. right, below, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006106/000.jpg", + "spar_bench/sample_006106/001.jpg", + "spar_bench/sample_006106/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6107, + "data_source": "SPAR-Bench", + "question": "As seen by the observer, where is poster (bbox) located in the three images? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, front\nB. left, above, behind\nC. right, above, behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006107/000.jpg", + "spar_bench/sample_006107/001.jpg", + "spar_bench/sample_006107/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6108, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where can object interactive whiteboard (bbox) be seen? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, front\nB. left, , front\nC. right, , front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006108/000.jpg", + "spar_bench/sample_006108/001.jpg", + "spar_bench/sample_006108/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6109, + "data_source": "SPAR-Bench", + "question": "Relative to the observer's view, in which direction is object cabinet (bbox) located? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, , front\nB. left, below, \nC. right, , behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006109/000.jpg", + "spar_bench/sample_006109/001.jpg", + "spar_bench/sample_006109/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6110, + "data_source": "SPAR-Bench", + "question": "Where is tv stand (bbox) positioned with respect to the observer's viewing angle? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, front\nB. left, , behind\nC. right, , behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006110/000.jpg", + "spar_bench/sample_006110/001.jpg", + "spar_bench/sample_006110/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6111, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s viewpoint, describe the direction of monitor (bbox) in the three images. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , above, behind\nB. left, above, behind\nC. left, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006111/000.jpg", + "spar_bench/sample_006111/001.jpg", + "spar_bench/sample_006111/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6112, + "data_source": "SPAR-Bench", + "question": "Relative to the observer\u2019s viewpoint, describe the direction of book (bbox) in the three images. Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , below, behind\nB. right, above, front\nC. right, below, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006112/000.jpg", + "spar_bench/sample_006112/001.jpg", + "spar_bench/sample_006112/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6113, + "data_source": "SPAR-Bench", + "question": "How is object shoes (bbox) oriented relative to the observer's perspective? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , below, front\nB. right, above, \nC. right, below, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006113/000.jpg", + "spar_bench/sample_006113/001.jpg", + "spar_bench/sample_006113/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6114, + "data_source": "SPAR-Bench", + "question": "Relative to the main viewing perspective, where is sofa (bbox) located? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, behind\nB. left, below, front\nC. right, below, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006114/000.jpg", + "spar_bench/sample_006114/001.jpg", + "spar_bench/sample_006114/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6115, + "data_source": "SPAR-Bench", + "question": "Where does object dishwasher (bbox) appear relative to the observer's main viewpoint? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , below, front\nB. right, above, behind\nC. right, above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006115/000.jpg", + "spar_bench/sample_006115/001.jpg", + "spar_bench/sample_006115/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6116, + "data_source": "SPAR-Bench", + "question": "Describe the spatial orientation of object trash can (bbox) relative to the observer. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, behind\nB. right, below, front\nC. left, , behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006116/000.jpg", + "spar_bench/sample_006116/001.jpg", + "spar_bench/sample_006116/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6117, + "data_source": "SPAR-Bench", + "question": "Where is object stationery (bbox) situated when viewed from the observer\u2019s primary angle? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, behind\nB. , below, behind\nC. right, below, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006117/000.jpg", + "spar_bench/sample_006117/001.jpg", + "spar_bench/sample_006117/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6118, + "data_source": "SPAR-Bench", + "question": "Where is storage cabinet (bbox) found relative to the main viewpoint of the observer? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , below, front\nB. right, below, behind\nC. right, , front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006118/000.jpg", + "spar_bench/sample_006118/001.jpg", + "spar_bench/sample_006118/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6119, + "data_source": "SPAR-Bench", + "question": "Where is cabinet (bbox) found in relation to the observer\u2019s primary perspective? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, behind\nB. right, above, behind\nC. right, below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006119/000.jpg", + "spar_bench/sample_006119/001.jpg", + "spar_bench/sample_006119/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6120, + "data_source": "SPAR-Bench", + "question": "Considering the observer\u2019s viewpoint, where is office chair (bbox) placed in the three images? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , front\nB. right, below, front\nC. , below, front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006120/000.jpg", + "spar_bench/sample_006120/001.jpg", + "spar_bench/sample_006120/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6121, + "data_source": "SPAR-Bench", + "question": "Describe the spatial position of wardrobe (bbox) when viewed from the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, behind\nB. right, , front\nC. , below, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006121/000.jpg", + "spar_bench/sample_006121/001.jpg", + "spar_bench/sample_006121/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6122, + "data_source": "SPAR-Bench", + "question": "What is the relative location of object covered power socket (bbox) in relation to the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, front\nB. , above, behind\nC. right, above, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006122/000.jpg", + "spar_bench/sample_006122/001.jpg", + "spar_bench/sample_006122/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6123, + "data_source": "SPAR-Bench", + "question": "In what direction is monitor (bbox) placed as seen from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, front\nB. left, above, front\nC. right, above, behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006123/000.jpg", + "spar_bench/sample_006123/001.jpg", + "spar_bench/sample_006123/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6124, + "data_source": "SPAR-Bench", + "question": "Where is object foldable closet (bbox) situated when viewed from the observer\u2019s primary angle? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, front\nB. right, below, front\nC. right, above, behind\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006124/000.jpg", + "spar_bench/sample_006124/001.jpg", + "spar_bench/sample_006124/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6125, + "data_source": "SPAR-Bench", + "question": "Where is object desk lamp (bbox) situated when viewed from the observer\u2019s primary angle? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, front\nB. left, above, \nC. right, , behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006125/000.jpg", + "spar_bench/sample_006125/001.jpg", + "spar_bench/sample_006125/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6126, + "data_source": "SPAR-Bench", + "question": "Relative to the observer's main perspective, what is the position of object SPLIT (bbox)? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, front\nB. , below, front\nC. left, below, behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006126/000.jpg", + "spar_bench/sample_006126/001.jpg", + "spar_bench/sample_006126/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6127, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, where can bottle crate (bbox) be found in the three images? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, , front\nB. , above, front\nC. left, above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006127/000.jpg", + "spar_bench/sample_006127/001.jpg", + "spar_bench/sample_006127/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6128, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, where can shoe (bbox) be found in the three images? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, front\nB. left, below, front\nC. , below, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006128/000.jpg", + "spar_bench/sample_006128/001.jpg", + "spar_bench/sample_006128/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6129, + "data_source": "SPAR-Bench", + "question": "Where can object arm chair (bbox) be seen in relation to the observer\u2019s viewing perspective? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, front\nB. right, , front\nC. right, , behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006129/000.jpg", + "spar_bench/sample_006129/001.jpg", + "spar_bench/sample_006129/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6130, + "data_source": "SPAR-Bench", + "question": "Where is object toilet paper (bbox) located in relation to the observer\u2019s primary viewing angle? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , behind\nB. right, below, front\nC. , below, behind\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006130/000.jpg", + "spar_bench/sample_006130/001.jpg", + "spar_bench/sample_006130/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6131, + "data_source": "SPAR-Bench", + "question": "From the primary viewpoint, what is the position of object paper (bbox)? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , above, front\nB. left, below, behind\nC. left, above, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006131/000.jpg", + "spar_bench/sample_006131/001.jpg", + "spar_bench/sample_006131/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6132, + "data_source": "SPAR-Bench", + "question": "What is the spatial direction of object towel (bbox) from the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, front\nB. right, , front\nC. left, , behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006132/000.jpg", + "spar_bench/sample_006132/001.jpg", + "spar_bench/sample_006132/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6133, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where does object chair (bbox) appear in the scene? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , below, behind\nB. , above, behind\nC. left, below, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006133/000.jpg", + "spar_bench/sample_006133/001.jpg", + "spar_bench/sample_006133/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6134, + "data_source": "SPAR-Bench", + "question": "How is object box (bbox) oriented relative to the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, front\nB. left, above, behind\nC. , above, front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006134/000.jpg", + "spar_bench/sample_006134/001.jpg", + "spar_bench/sample_006134/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6135, + "data_source": "SPAR-Bench", + "question": "Considering the observer's main viewpoint, where is dishwasher (bbox) located in the scene? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, front\nB. left, below, \nC. left, below, behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006135/000.jpg", + "spar_bench/sample_006135/001.jpg", + "spar_bench/sample_006135/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6136, + "data_source": "SPAR-Bench", + "question": "In the observer\u2019s view, where does object window (bbox) appear in the scene? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , front\nB. right, above, front\nC. left, above, behind\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006136/000.jpg", + "spar_bench/sample_006136/001.jpg", + "spar_bench/sample_006136/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6137, + "data_source": "SPAR-Bench", + "question": "Where is sink (bbox) found in relation to the observer\u2019s primary perspective? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, front\nB. left, below, front\nC. right, above, behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006137/000.jpg", + "spar_bench/sample_006137/001.jpg", + "spar_bench/sample_006137/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6138, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, describe the spatial location of chair (bbox) in the scene. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, front\nB. , below, behind\nC. left, , front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006138/000.jpg", + "spar_bench/sample_006138/001.jpg", + "spar_bench/sample_006138/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6139, + "data_source": "SPAR-Bench", + "question": "Describe the relative position of object power socket (bbox) as observed from the viewer's angle. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, front\nB. , above, front\nC. , above, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006139/000.jpg", + "spar_bench/sample_006139/001.jpg", + "spar_bench/sample_006139/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6140, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s primary angle, what is the position of object rolling chair (bbox)? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, front\nB. left, above, \nC. left, above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006140/000.jpg", + "spar_bench/sample_006140/001.jpg", + "spar_bench/sample_006140/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6141, + "data_source": "SPAR-Bench", + "question": "Relative to the observer's main perspective, what is the position of object book (bbox)? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , below, front\nB. , above, front\nC. right, above, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006141/000.jpg", + "spar_bench/sample_006141/001.jpg", + "spar_bench/sample_006141/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6142, + "data_source": "SPAR-Bench", + "question": "From the main perspective of the observer, describe the location of laundry basket (bbox). Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, front\nB. right, below, \nC. left, below, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006142/000.jpg", + "spar_bench/sample_006142/001.jpg", + "spar_bench/sample_006142/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6143, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is object windowframe (bbox) located? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, front\nB. , below, behind\nC. left, below, \nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006143/000.jpg", + "spar_bench/sample_006143/001.jpg", + "spar_bench/sample_006143/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6144, + "data_source": "SPAR-Bench", + "question": "In the given three images, describe the spatial position of trash can (bbox) relative to the observer. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, front\nB. right, above, front\nC. left, above, \nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006144/000.jpg", + "spar_bench/sample_006144/001.jpg", + "spar_bench/sample_006144/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6145, + "data_source": "SPAR-Bench", + "question": "Where can object paper (bbox) be seen in relation to the observer\u2019s viewing perspective? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, behind\nB. right, above, front\nC. right, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006145/000.jpg", + "spar_bench/sample_006145/001.jpg", + "spar_bench/sample_006145/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6146, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the recycling bin (red bbox) relative to the compost bin (blue bbox) in the two images, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, , closer, front, front\nB. left, above, farther, front, \nC. right, , closer, front, front\nD. left, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006146/000.jpg", + "spar_bench/sample_006146/001.jpg", + "spar_bench/sample_006146/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6147, + "data_source": "SPAR-Bench", + "question": "In the two images, what is the relative position of the chair (red bbox) to the monitor (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, closer, front, front\nB. left, above, closer, front, front\nC. right, below, farther, front, front\nD. right, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006147/000.jpg", + "spar_bench/sample_006147/001.jpg", + "spar_bench/sample_006147/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6148, + "data_source": "SPAR-Bench", + "question": "In the two images, describe where the cabinet (red bbox) is located in relation to the pillow (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, closer, , behind\nB. left, above, closer, behind, behind\nC. left, below, farther, behind, \nD. right, , farther, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006148/000.jpg", + "spar_bench/sample_006148/001.jpg", + "spar_bench/sample_006148/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6149, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, describe the location of the dining table (red bbox) in relation to the chair (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, closer, front, \nB. left, , farther, front, front\nC. left, below, farther, , behind\nD. left, below, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006149/000.jpg", + "spar_bench/sample_006149/001.jpg", + "spar_bench/sample_006149/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6150, + "data_source": "SPAR-Bench", + "question": "How is the chair (red bbox) oriented spatially in relation to the lamp (blue bbox) in the two images, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, closer, front, front\nB. right, below, closer, , behind\nC. right, above, closer, front, \nD. left, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006150/000.jpg", + "spar_bench/sample_006150/001.jpg", + "spar_bench/sample_006150/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6151, + "data_source": "SPAR-Bench", + "question": "In the given two images, identify the location of the cabinet (red bbox) relative to the computer tower (blue bbox), as seen by the observer. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, , behind, behind\nB. left, above, , front, front\nC. right, , , front, front\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006151/000.jpg", + "spar_bench/sample_006151/001.jpg", + "spar_bench/sample_006151/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6152, + "data_source": "SPAR-Bench", + "question": "In the two images, how does the kitchen cabinets (red bbox) appear spatially in relation to the kitchen cabinet (blue bbox), as observed by the viewer? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, , front, front\nB. , below, closer, front, behind\nC. right, , farther, front, front\nD. left, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006152/000.jpg", + "spar_bench/sample_006152/001.jpg", + "spar_bench/sample_006152/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6153, + "data_source": "SPAR-Bench", + "question": "In the two images, what is the relative position of the window (red bbox) to the kitchen cabinets (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , above, closer, behind, front\nB. right, , closer, front, front\nC. right, below, , front, front\nD. right, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006153/000.jpg", + "spar_bench/sample_006153/001.jpg", + "spar_bench/sample_006153/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6154, + "data_source": "SPAR-Bench", + "question": "Considering the observer's point of view, where is the clothing (red bbox) positioned compared to the paper (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, , front, front\nB. left, below, farther, front, front\nC. left, below, farther, , front\nD. left, below, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006154/000.jpg", + "spar_bench/sample_006154/001.jpg", + "spar_bench/sample_006154/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6155, + "data_source": "SPAR-Bench", + "question": "Based on the observer's viewpoint, where is the pillow (red bbox) in relation to the lamp (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, closer, front, front\nB. right, below, farther, front, \nC. left, above, farther, front, \nD. left, above, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006155/000.jpg", + "spar_bench/sample_006155/001.jpg", + "spar_bench/sample_006155/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6156, + "data_source": "SPAR-Bench", + "question": "In the two images, how does the bed (red bbox) appear spatially in relation to the desk (blue bbox), as observed by the viewer? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, farther, , behind\nB. right, below, closer, , front\nC. right, below, closer, behind, front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006156/000.jpg", + "spar_bench/sample_006156/001.jpg", + "spar_bench/sample_006156/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6157, + "data_source": "SPAR-Bench", + "question": "From the observer's frame of reference, how is the desk (red bbox) spatially situated in relation to the office chair (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, closer, , front\nB. left, , , front, front\nC. right, , closer, front, front\nD. left, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006157/000.jpg", + "spar_bench/sample_006157/001.jpg", + "spar_bench/sample_006157/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6158, + "data_source": "SPAR-Bench", + "question": "Describe where the table (red bbox) lies in relation to the trash can (blue bbox) in the two images, from the observer's point of view. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , closer, front, behind\nB. , above, farther, front, behind\nC. left, below, , front, behind\nD. right, below, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006158/000.jpg", + "spar_bench/sample_006158/001.jpg", + "spar_bench/sample_006158/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6159, + "data_source": "SPAR-Bench", + "question": "Considering the observer's point of view, where is the toilet (red bbox) positioned compared to the bar (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , closer, front, front\nB. , above, closer, front, front\nC. right, below, closer, , behind\nD. , below, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006159/000.jpg", + "spar_bench/sample_006159/001.jpg", + "spar_bench/sample_006159/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6160, + "data_source": "SPAR-Bench", + "question": "What is the observer's perspective on the spatial arrangement of the chair (red bbox) with respect to the curtains (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, closer, front, front\nB. right, above, closer, , front\nC. right, , closer, front, front\nD. right, below, farther, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006160/000.jpg", + "spar_bench/sample_006160/001.jpg", + "spar_bench/sample_006160/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6161, + "data_source": "SPAR-Bench", + "question": "In the two images, where does the recycling bin (red bbox) stand in relation to the trash can (blue bbox) based on the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, below, farther, behind, \nB. right, , closer, front, front\nC. right, below, , behind, front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006161/000.jpg", + "spar_bench/sample_006161/001.jpg", + "spar_bench/sample_006161/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6162, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is the bowl (red bbox) situated in relation to the range hood (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, closer, behind, front\nB. left, below, farther, front, front\nC. left, above, , front, front\nD. right, above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006162/000.jpg", + "spar_bench/sample_006162/001.jpg", + "spar_bench/sample_006162/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6163, + "data_source": "SPAR-Bench", + "question": "How does the bed (red bbox) align spatially with the window (blue bbox) in the two images? Respond based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, closer, front, front\nB. left, , closer, front, front\nC. left, above, closer, behind, behind\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006163/000.jpg", + "spar_bench/sample_006163/001.jpg", + "spar_bench/sample_006163/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6164, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the cart (red bbox) located relative to the cart (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, farther, behind, front\nB. , below, closer, behind, front\nC. right, , closer, front, front\nD. right, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006164/000.jpg", + "spar_bench/sample_006164/001.jpg", + "spar_bench/sample_006164/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6165, + "data_source": "SPAR-Bench", + "question": "From the observer's frame of reference, how is the laptop (red bbox) spatially situated in relation to the desk (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, , behind, behind\nB. left, , closer, front, behind\nC. left, above, closer, front, front\nD. left, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006165/000.jpg", + "spar_bench/sample_006165/001.jpg", + "spar_bench/sample_006165/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6166, + "data_source": "SPAR-Bench", + "question": "Describe the relative positioning of the radiator (red bbox) with respect to the window (blue bbox) from the observer\u2019s perspective. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, below, closer, front, front\nB. right, above, farther, , front\nC. right, , farther, front, behind\nD. , below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006166/000.jpg", + "spar_bench/sample_006166/001.jpg", + "spar_bench/sample_006166/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6167, + "data_source": "SPAR-Bench", + "question": "In the two images, where does the chair (red bbox) lie with respect to the table (blue bbox) based on the observer's frame of reference? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , farther, front, front\nB. right, below, , behind, behind\nC. left, below, closer, behind, front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006167/000.jpg", + "spar_bench/sample_006167/001.jpg", + "spar_bench/sample_006167/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6168, + "data_source": "SPAR-Bench", + "question": "Where is the chair (red bbox) located compared to the chair (blue bbox) as seen from the observer's perspective in the two images? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, farther, front, front\nB. right, below, closer, , front\nC. right, , farther, front, front\nD. right, , farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006168/000.jpg", + "spar_bench/sample_006168/001.jpg", + "spar_bench/sample_006168/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6169, + "data_source": "SPAR-Bench", + "question": "Using the two images, specify the position of the cabinet (red bbox) with respect to the table (blue bbox) from the viewpoint of the observer. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, , behind, front\nB. left, , farther, front, behind\nC. right, above, , front, behind\nD. left, , closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006169/000.jpg", + "spar_bench/sample_006169/001.jpg", + "spar_bench/sample_006169/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6170, + "data_source": "SPAR-Bench", + "question": "Describe how the tv (red bbox) is situated in relation to the chair (blue bbox) in the two images, considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, closer, behind, front\nB. right, , closer, front, front\nC. left, above, closer, behind, front\nD. right, above, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006170/000.jpg", + "spar_bench/sample_006170/001.jpg", + "spar_bench/sample_006170/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6171, + "data_source": "SPAR-Bench", + "question": "In the given two images, how does the bucket (red bbox) compare spatially to the boiler (blue bbox) from the observer's perspective? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, farther, , behind\nB. right, below, , front, front\nC. left, , farther, front, front\nD. left, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006171/000.jpg", + "spar_bench/sample_006171/001.jpg", + "spar_bench/sample_006171/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6172, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, where does the file cabinet (red bbox) appear in relation to the monitor (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , closer, front, front\nB. right, above, , front, front\nC. right, above, farther, behind, front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006172/000.jpg", + "spar_bench/sample_006172/001.jpg", + "spar_bench/sample_006172/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6173, + "data_source": "SPAR-Bench", + "question": "Describe how the trash can (red bbox) is located compared to the chair (blue bbox) in the two images, using the observer's point of view. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, farther, behind, front\nB. left, below, closer, , front\nC. right, below, farther, front, front\nD. right, below, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006173/000.jpg", + "spar_bench/sample_006173/001.jpg", + "spar_bench/sample_006173/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6174, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of the chair (red bbox) with the table (blue bbox) in the two images? Answer based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, , front, behind\nB. right, below, closer, behind, front\nC. left, , closer, front, front\nD. left, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006174/000.jpg", + "spar_bench/sample_006174/001.jpg", + "spar_bench/sample_006174/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6175, + "data_source": "SPAR-Bench", + "question": "What is the observer's perspective on the spatial arrangement of the coffee table (red bbox) with respect to the armchair (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, farther, behind, \nB. right, , farther, behind, behind\nC. right, , farther, front, front\nD. left, below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006175/000.jpg", + "spar_bench/sample_006175/001.jpg", + "spar_bench/sample_006175/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6176, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, what is the spatial position of the soap dispenser (red bbox) relative to the paper towel dispenser (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, , farther, front, front\nB. left, , farther, front, behind\nC. left, above, closer, front, front\nD. , below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006176/000.jpg", + "spar_bench/sample_006176/001.jpg", + "spar_bench/sample_006176/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6177, + "data_source": "SPAR-Bench", + "question": "How would you describe the position of the window (red bbox) relative to the box (blue bbox) in the two images? Provide the direction relative to the observer. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, farther, front, front\nB. left, above, closer, front, \nC. right, below, closer, , front\nD. right, , farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006177/000.jpg", + "spar_bench/sample_006177/001.jpg", + "spar_bench/sample_006177/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6178, + "data_source": "SPAR-Bench", + "question": "Describe where the table (red bbox) lies in relation to the monitor (blue bbox) in the two images, from the observer's point of view. Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, closer, front, front\nB. right, below, closer, , behind\nC. left, below, closer, behind, \nD. left, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006178/000.jpg", + "spar_bench/sample_006178/001.jpg", + "spar_bench/sample_006178/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6179, + "data_source": "SPAR-Bench", + "question": "How does the chair (red bbox) relate spatially to the bookshelf (blue bbox) in the two images, as seen by the observer? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , farther, front, front\nB. right, , , front, front\nC. right, above, , front, behind\nD. right, below, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006179/000.jpg", + "spar_bench/sample_006179/001.jpg", + "spar_bench/sample_006179/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6180, + "data_source": "SPAR-Bench", + "question": "Where does the chair (red bbox) lie in relation to the chair (blue bbox) in the two images from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, closer, , behind\nB. right, , farther, front, front\nC. left, above, farther, , behind\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006180/000.jpg", + "spar_bench/sample_006180/001.jpg", + "spar_bench/sample_006180/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6181, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the chair (red bbox) relative to the suitcase (blue bbox) in the two images, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, , closer, behind, behind\nB. right, , farther, front, front\nC. left, , closer, front, front\nD. right, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006181/000.jpg", + "spar_bench/sample_006181/001.jpg", + "spar_bench/sample_006181/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6182, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the chair (red bbox) be found in relation to the table (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , below, farther, behind, front\nB. left, above, farther, front, front\nC. right, , farther, front, front\nD. right, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006182/000.jpg", + "spar_bench/sample_006182/001.jpg", + "spar_bench/sample_006182/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6183, + "data_source": "SPAR-Bench", + "question": "Where is the table (red bbox) situated in the two images relative to the shelf (blue bbox) from the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , closer, front, front\nB. left, , closer, front, behind\nC. left, above, , front, front\nD. left, above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006183/000.jpg", + "spar_bench/sample_006183/001.jpg", + "spar_bench/sample_006183/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6184, + "data_source": "SPAR-Bench", + "question": "Examine the two images and determine the relative position of the office chair (red bbox) to the table (blue bbox) as observed by the viewer. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, closer, front, front\nB. right, below, , behind, front\nC. right, above, , front, front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006184/000.jpg", + "spar_bench/sample_006184/001.jpg", + "spar_bench/sample_006184/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6185, + "data_source": "SPAR-Bench", + "question": "In the provided two images, what is the positional relationship of the office chair (red bbox) to the office chair (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, , front, behind\nB. right, , farther, front, front\nC. , below, closer, front, front\nD. left, above, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006185/000.jpg", + "spar_bench/sample_006185/001.jpg", + "spar_bench/sample_006185/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6186, + "data_source": "SPAR-Bench", + "question": "How does the table (red bbox) relate spatially to the chair (blue bbox) in the two images, as seen by the observer? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , farther, front, front\nB. right, , farther, front, front\nC. left, above, closer, , front\nD. right, below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006186/000.jpg", + "spar_bench/sample_006186/001.jpg", + "spar_bench/sample_006186/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6187, + "data_source": "SPAR-Bench", + "question": "Where is the ledge (red bbox) found relative to the picture (blue bbox) in the two images, as seen by the observer? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, below, farther, behind, \nB. left, below, , front, front\nC. left, below, , front, behind\nD. , above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006187/000.jpg", + "spar_bench/sample_006187/001.jpg", + "spar_bench/sample_006187/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6188, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, describe the spatial orientation of the toilet (red bbox) relative to the toilet paper (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, closer, behind, front\nB. right, below, closer, front, front\nC. right, above, , behind, behind\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006188/000.jpg", + "spar_bench/sample_006188/001.jpg", + "spar_bench/sample_006188/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6189, + "data_source": "SPAR-Bench", + "question": "Describe the relative location of the toilet (red bbox) with respect to the sink (blue bbox) in the two images, as seen by the observer. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , farther, front, front\nB. , below, farther, front, front\nC. right, , closer, front, behind\nD. left, below, closer, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006189/000.jpg", + "spar_bench/sample_006189/001.jpg", + "spar_bench/sample_006189/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6190, + "data_source": "SPAR-Bench", + "question": "Describe the relative location of the chair (red bbox) with respect to the shelf (blue bbox) in the two images, as seen by the observer. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, farther, , front\nB. , above, farther, front, front\nC. right, below, farther, front, front\nD. right, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006190/000.jpg", + "spar_bench/sample_006190/001.jpg", + "spar_bench/sample_006190/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6191, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of the books (red bbox) with the books (blue bbox) in the two images? Answer based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , above, farther, front, behind\nB. , above, , front, front\nC. right, below, farther, , front\nD. , above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006191/000.jpg", + "spar_bench/sample_006191/001.jpg", + "spar_bench/sample_006191/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6192, + "data_source": "SPAR-Bench", + "question": "In the given two images, what is the spatial alignment of the chair (red bbox) relative to the chair (blue bbox) as perceived by the observer? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, closer, front, behind\nB. right, , closer, front, front\nC. right, , farther, front, front\nD. right, above, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006192/000.jpg", + "spar_bench/sample_006192/001.jpg", + "spar_bench/sample_006192/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6193, + "data_source": "SPAR-Bench", + "question": "Using the two images, explain where the chair (red bbox) is located relative to the table (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, farther, , front\nB. right, below, closer, , front\nC. right, , farther, front, behind\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006193/000.jpg", + "spar_bench/sample_006193/001.jpg", + "spar_bench/sample_006193/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6194, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, how is the shower walls (red bbox) located with respect to the seat (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, closer, , front\nB. left, , closer, front, front\nC. left, above, closer, behind, front\nD. , above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006194/000.jpg", + "spar_bench/sample_006194/001.jpg", + "spar_bench/sample_006194/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6195, + "data_source": "SPAR-Bench", + "question": "Please describe how the chair (red bbox) is oriented relative to the whiteboard (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, below, closer, front, front\nB. left, below, closer, front, \nC. right, below, farther, , front\nD. right, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006195/000.jpg", + "spar_bench/sample_006195/001.jpg", + "spar_bench/sample_006195/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6196, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the chair (red bbox) relative to the chair (blue bbox) in the two images, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, , behind, front\nB. left, above, closer, behind, front\nC. right, above, , behind, front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006196/000.jpg", + "spar_bench/sample_006196/001.jpg", + "spar_bench/sample_006196/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6197, + "data_source": "SPAR-Bench", + "question": "Analyze the two images and determine the directional relationship between the bookshelf (red bbox) and the window (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , above, farther, behind, front\nB. right, , farther, front, front\nC. right, above, closer, behind, behind\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006197/000.jpg", + "spar_bench/sample_006197/001.jpg", + "spar_bench/sample_006197/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6198, + "data_source": "SPAR-Bench", + "question": "Describe the location of the cup (red bbox) with respect to the bathroom cabinet (blue bbox) in the given two images, relative to the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , closer, front, front\nB. right, above, , front, front\nC. right, above, farther, front, front\nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006198/000.jpg", + "spar_bench/sample_006198/001.jpg", + "spar_bench/sample_006198/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6199, + "data_source": "SPAR-Bench", + "question": "In the two images, what is the directional relationship of the soap dispenser (red bbox) relative to the bathroom stall (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , closer, front, front\nB. left, below, , front, front\nC. left, below, closer, front, front\nD. right, above, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006199/000.jpg", + "spar_bench/sample_006199/001.jpg", + "spar_bench/sample_006199/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6200, + "data_source": "SPAR-Bench", + "question": "In the two images, how is the clothes (red bbox) spatially oriented in relation to the curtain (blue bbox) from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , closer, front, front\nB. left, above, farther, front, front\nC. right, , farther, front, front\nD. , below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006200/000.jpg", + "spar_bench/sample_006200/001.jpg", + "spar_bench/sample_006200/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6201, + "data_source": "SPAR-Bench", + "question": "What is the position of the tv (red bbox) relative to the tv stand (blue bbox) in the two images according to the observer's perspective? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, farther, , front\nB. right, above, , front, behind\nC. left, above, closer, front, behind\nD. left, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006201/000.jpg", + "spar_bench/sample_006201/001.jpg", + "spar_bench/sample_006201/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6202, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, where can the toilet paper dispenser (red bbox) be seen relative to the toilet (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, farther, behind, behind\nB. right, above, farther, front, front\nC. left, above, farther, front, behind\nD. , above, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006202/000.jpg", + "spar_bench/sample_006202/001.jpg", + "spar_bench/sample_006202/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6203, + "data_source": "SPAR-Bench", + "question": "Can you describe the position of the office chair (red bbox) relative to the desk (blue bbox) in the given two images? Please base your answer on the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, closer, front, front\nB. right, below, farther, behind, front\nC. right, , closer, front, front\nD. right, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006203/000.jpg", + "spar_bench/sample_006203/001.jpg", + "spar_bench/sample_006203/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6204, + "data_source": "SPAR-Bench", + "question": "Describe the pillow (red bbox) compared to the table (blue bbox) in terms of spatial location, relative to the observer's view. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, closer, front, \nB. right, below, , front, front\nC. right, below, closer, front, front\nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006204/000.jpg", + "spar_bench/sample_006204/001.jpg", + "spar_bench/sample_006204/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6205, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the window (red bbox) be found compared to the monitor (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , , front, front\nB. left, below, closer, front, \nC. right, below, , behind, behind\nD. left, below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006205/000.jpg", + "spar_bench/sample_006205/001.jpg", + "spar_bench/sample_006205/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6206, + "data_source": "SPAR-Bench", + "question": "Where is the bed (red bbox) found spatially in comparison to the couch (blue bbox) in the two images, according to the observer? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , farther, front, behind\nB. left, , farther, front, front\nC. right, above, closer, front, \nD. left, below, farther, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006206/000.jpg", + "spar_bench/sample_006206/001.jpg", + "spar_bench/sample_006206/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6207, + "data_source": "SPAR-Bench", + "question": "Where is the table (red bbox) relative to the bookshelf (blue bbox) in the two images, according to the observer's view? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , closer, front, front\nB. right, above, closer, front, front\nC. left, , farther, behind, front\nD. left, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006207/000.jpg", + "spar_bench/sample_006207/001.jpg", + "spar_bench/sample_006207/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6208, + "data_source": "SPAR-Bench", + "question": "How would you describe the position of the chair (red bbox) relative to the chair (blue bbox) in the two images? Provide the direction relative to the observer. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, closer, front, front\nB. right, below, , front, front\nC. right, , closer, front, behind\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006208/000.jpg", + "spar_bench/sample_006208/001.jpg", + "spar_bench/sample_006208/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6209, + "data_source": "SPAR-Bench", + "question": "In the two images, where does the cabinet (red bbox) stand in relation to the cabinet (blue bbox) based on the observer's perspective? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, , farther, front, behind\nB. right, , closer, front, front\nC. left, , closer, behind, front\nD. right, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006209/000.jpg", + "spar_bench/sample_006209/001.jpg", + "spar_bench/sample_006209/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6210, + "data_source": "SPAR-Bench", + "question": "Using the two images, specify the position of the couch (red bbox) with respect to the trash can (blue bbox) from the viewpoint of the observer. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. , above, closer, behind, behind\nB. , below, farther, front, behind\nC. right, , closer, front, front\nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006210/000.jpg", + "spar_bench/sample_006210/001.jpg", + "spar_bench/sample_006210/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6211, + "data_source": "SPAR-Bench", + "question": "In the given two images, how does the table (red bbox) compare spatially to the chair (blue bbox) from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , closer, front, front\nB. right, below, closer, front, \nC. right, above, closer, , behind\nD. left, above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006211/000.jpg", + "spar_bench/sample_006211/001.jpg", + "spar_bench/sample_006211/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6212, + "data_source": "SPAR-Bench", + "question": "In the two images, describe where the table (red bbox) is located in relation to the whiteboard (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , closer, front, behind\nB. left, below, farther, , behind\nC. right, below, closer, behind, \nD. right, , , front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006212/000.jpg", + "spar_bench/sample_006212/001.jpg", + "spar_bench/sample_006212/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6213, + "data_source": "SPAR-Bench", + "question": "In the given two images, how does the toilet (red bbox) compare spatially to the bathroom stall door (blue bbox) from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, farther, behind, \nB. right, , farther, front, front\nC. left, , farther, behind, behind\nD. right, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006213/000.jpg", + "spar_bench/sample_006213/001.jpg", + "spar_bench/sample_006213/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6214, + "data_source": "SPAR-Bench", + "question": "Using the two images, specify the position of the cup (red bbox) with respect to the kitchen counter (blue bbox) from the viewpoint of the observer. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , farther, front, behind\nB. right, above, , front, behind\nC. right, , farther, front, front\nD. , below, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006214/000.jpg", + "spar_bench/sample_006214/001.jpg", + "spar_bench/sample_006214/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6215, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, explain the directional relationship between the chair (red bbox) and the table (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , above, farther, behind, front\nB. right, , closer, front, front\nC. right, above, closer, front, front\nD. right, above, farther, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006215/000.jpg", + "spar_bench/sample_006215/001.jpg", + "spar_bench/sample_006215/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6216, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, how is the oven (red bbox) located with respect to the chair (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, , behind, front\nB. right, , closer, front, front\nC. left, below, farther, , behind\nD. right, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006216/000.jpg", + "spar_bench/sample_006216/001.jpg", + "spar_bench/sample_006216/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6217, + "data_source": "SPAR-Bench", + "question": "How does the towel (red bbox) compare in position to the towel (blue bbox) in the given two images? Answer relative to the observer's frame of reference. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, farther, front, \nB. , above, farther, behind, front\nC. right, above, farther, front, behind\nD. right, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006217/000.jpg", + "spar_bench/sample_006217/001.jpg", + "spar_bench/sample_006217/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6218, + "data_source": "SPAR-Bench", + "question": "In the two images, describe the spatial positioning of the bag (red bbox) relative to the laptop (blue bbox) from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , closer, front, front\nB. right, above, farther, front, behind\nC. left, , farther, behind, front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006218/000.jpg", + "spar_bench/sample_006218/001.jpg", + "spar_bench/sample_006218/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6219, + "data_source": "SPAR-Bench", + "question": "Describe the position of the chair (red bbox) concerning the table (blue bbox) in the two images, from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, closer, front, \nB. left, , closer, front, front\nC. left, , closer, behind, behind\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006219/000.jpg", + "spar_bench/sample_006219/001.jpg", + "spar_bench/sample_006219/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6220, + "data_source": "SPAR-Bench", + "question": "In the given two images, what is the position of the clothing (red bbox) relative to the curtain (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , above, closer, behind, front\nB. right, above, farther, behind, \nC. right, , farther, behind, front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006220/000.jpg", + "spar_bench/sample_006220/001.jpg", + "spar_bench/sample_006220/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6221, + "data_source": "SPAR-Bench", + "question": "In the given two images, what is the spatial alignment of the toilet (red bbox) relative to the sink (blue bbox) as perceived by the observer? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , above, closer, front, front\nB. left, above, closer, behind, behind\nC. right, , closer, front, front\nD. , below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006221/000.jpg", + "spar_bench/sample_006221/001.jpg", + "spar_bench/sample_006221/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6222, + "data_source": "SPAR-Bench", + "question": "In the provided two images, what is the positional relationship of the shoes (red bbox) to the chair (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, farther, front, front\nB. left, , farther, front, front\nC. right, below, , front, front\nD. left, below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006222/000.jpg", + "spar_bench/sample_006222/001.jpg", + "spar_bench/sample_006222/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6223, + "data_source": "SPAR-Bench", + "question": "Where is the shoes (red bbox) found spatially in comparison to the pipe (blue bbox) in the two images, according to the observer? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, farther, behind, behind\nB. left, below, , front, front\nC. right, , closer, front, front\nD. left, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006223/000.jpg", + "spar_bench/sample_006223/001.jpg", + "spar_bench/sample_006223/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6224, + "data_source": "SPAR-Bench", + "question": "How is the sleeping bag (red bbox) oriented spatially in relation to the chair (blue bbox) in the two images, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , below, farther, front, front\nB. right, , closer, front, front\nC. right, , farther, front, front\nD. right, below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006224/000.jpg", + "spar_bench/sample_006224/001.jpg", + "spar_bench/sample_006224/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6225, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, describe the location of the towel (red bbox) in relation to the towel (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , closer, front, behind\nB. left, below, , front, front\nC. left, , farther, front, front\nD. left, below, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006225/000.jpg", + "spar_bench/sample_006225/001.jpg", + "spar_bench/sample_006225/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6226, + "data_source": "SPAR-Bench", + "question": "In the two images, describe the spatial relationship between the backpack (red bbox) and the table (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, farther, front, front\nB. right, below, closer, front, front\nC. , below, farther, front, front\nD. left, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006226/000.jpg", + "spar_bench/sample_006226/001.jpg", + "spar_bench/sample_006226/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6227, + "data_source": "SPAR-Bench", + "question": "In the two images, what is the relative position of the curtain (red bbox) to the pillow (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , farther, front, behind\nB. right, below, , behind, front\nC. right, , farther, front, front\nD. left, above, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006227/000.jpg", + "spar_bench/sample_006227/001.jpg", + "spar_bench/sample_006227/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6228, + "data_source": "SPAR-Bench", + "question": "In the two images, describe the spatial positioning of the desk (red bbox) relative to the recycling bin (blue bbox) from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, closer, behind, front\nB. right, above, , behind, front\nC. right, , closer, front, front\nD. right, , closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006228/000.jpg", + "spar_bench/sample_006228/001.jpg", + "spar_bench/sample_006228/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6229, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is the trash can (red bbox) situated in relation to the recycling bin (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , closer, behind, behind\nB. left, above, farther, front, front\nC. , below, closer, front, front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006229/000.jpg", + "spar_bench/sample_006229/001.jpg", + "spar_bench/sample_006229/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6230, + "data_source": "SPAR-Bench", + "question": "In the given two images, identify the location of the chair (red bbox) with respect to the tv (blue bbox) based on the observer's direction. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , closer, front, behind\nB. right, below, , front, front\nC. , below, closer, front, front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006230/000.jpg", + "spar_bench/sample_006230/001.jpg", + "spar_bench/sample_006230/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6231, + "data_source": "SPAR-Bench", + "question": "Where is the table (red bbox) located compared to the armchair (blue bbox) as seen from the observer's perspective in the two images? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, closer, , front\nB. right, above, farther, front, behind\nC. right, , farther, front, front\nD. left, below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006231/000.jpg", + "spar_bench/sample_006231/001.jpg", + "spar_bench/sample_006231/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6232, + "data_source": "SPAR-Bench", + "question": "Describe the relative positioning of the bench (red bbox) compared to the ottoman (blue bbox) in the two images, based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, below, , front, front\nB. right, below, farther, front, \nC. right, above, , front, behind\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006232/000.jpg", + "spar_bench/sample_006232/001.jpg", + "spar_bench/sample_006232/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6233, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, where does the chair (red bbox) appear relative to the curtains (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , closer, front, front\nB. right, above, , front, front\nC. left, above, , front, front\nD. right, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006233/000.jpg", + "spar_bench/sample_006233/001.jpg", + "spar_bench/sample_006233/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6234, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, what is the spatial position of the coffee table (red bbox) relative to the bench (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, closer, front, front\nB. , above, closer, front, front\nC. left, above, closer, front, behind\nD. left, above, farther, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006234/000.jpg", + "spar_bench/sample_006234/001.jpg", + "spar_bench/sample_006234/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6235, + "data_source": "SPAR-Bench", + "question": "Please describe how the trash can (red bbox) is oriented relative to the toilet (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , closer, front, front\nB. left, , farther, front, front\nC. left, , farther, front, behind\nD. left, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006235/000.jpg", + "spar_bench/sample_006235/001.jpg", + "spar_bench/sample_006235/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6236, + "data_source": "SPAR-Bench", + "question": "Describe the positioning of the chair (red bbox) with respect to the coffee maker (blue bbox) in the two images, based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, closer, front, front\nB. left, below, , behind, behind\nC. left, below, closer, , front\nD. left, below, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006236/000.jpg", + "spar_bench/sample_006236/001.jpg", + "spar_bench/sample_006236/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6237, + "data_source": "SPAR-Bench", + "question": "State the position of the trash can (red bbox) with respect to the cabinet (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , closer, front, front\nB. , above, farther, behind, front\nC. right, above, closer, behind, front\nD. , above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006237/000.jpg", + "spar_bench/sample_006237/001.jpg", + "spar_bench/sample_006237/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6238, + "data_source": "SPAR-Bench", + "question": "What is the spatial orientation of the plant (red bbox) compared to the chair (blue bbox) in the two images, relative to the observer's view? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, , front, front\nB. left, above, closer, front, behind\nC. , below, closer, front, behind\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006238/000.jpg", + "spar_bench/sample_006238/001.jpg", + "spar_bench/sample_006238/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6239, + "data_source": "SPAR-Bench", + "question": "In the two images, where does the armchair (red bbox) lie with respect to the lamp (blue bbox) based on the observer's frame of reference? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , closer, front, behind\nB. left, below, farther, front, front\nC. left, , farther, front, front\nD. left, above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006239/000.jpg", + "spar_bench/sample_006239/001.jpg", + "spar_bench/sample_006239/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6240, + "data_source": "SPAR-Bench", + "question": "Describe the spatial arrangement of the chair (red bbox) and the kitchen cabinet (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , farther, , front\nB. left, , closer, front, behind\nC. , above, closer, front, front\nD. right, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006240/000.jpg", + "spar_bench/sample_006240/001.jpg", + "spar_bench/sample_006240/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6241, + "data_source": "SPAR-Bench", + "question": "How does the monitor (red bbox) align spatially with the blinds (blue bbox) in the two images? Respond based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, farther, behind, front\nB. left, , closer, behind, front\nC. left, below, farther, front, \nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006241/000.jpg", + "spar_bench/sample_006241/001.jpg", + "spar_bench/sample_006241/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6242, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, where does the pillow (red bbox) appear in relation to the pillow (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, closer, front, front\nB. right, , farther, front, front\nC. right, below, closer, behind, front\nD. , above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006242/000.jpg", + "spar_bench/sample_006242/001.jpg", + "spar_bench/sample_006242/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6243, + "data_source": "SPAR-Bench", + "question": "Describe the relative location of the whiteboard (red bbox) with respect to the table (blue bbox) in the two images, as seen by the observer. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , closer, behind, behind\nB. , below, farther, behind, behind\nC. right, , farther, behind, front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006243/000.jpg", + "spar_bench/sample_006243/001.jpg", + "spar_bench/sample_006243/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6244, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, how is the picture (red bbox) positioned in relation to the trash can (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , above, closer, front, front\nB. left, above, farther, , behind\nC. right, above, closer, , front\nD. left, above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006244/000.jpg", + "spar_bench/sample_006244/001.jpg", + "spar_bench/sample_006244/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6245, + "data_source": "SPAR-Bench", + "question": "As seen in the two images, where is the desk (red bbox) located relative to the backpack (blue bbox) from the observer's point of view? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, farther, behind, \nB. right, above, farther, behind, \nC. right, above, closer, behind, front\nD. right, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006245/000.jpg", + "spar_bench/sample_006245/001.jpg", + "spar_bench/sample_006245/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6246, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the trash can (red bbox) relative to the shower curtain (blue bbox) in the two images, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, below, farther, front, front\nB. right, , farther, behind, front\nC. left, below, , front, behind\nD. left, , , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006246/000.jpg", + "spar_bench/sample_006246/001.jpg", + "spar_bench/sample_006246/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6247, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, specify where the nightstand (red bbox) is located compared to the dollhouse (blue bbox) in the given two images. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, , front, behind\nB. right, below, closer, behind, front\nC. right, , closer, front, front\nD. right, , , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006247/000.jpg", + "spar_bench/sample_006247/001.jpg", + "spar_bench/sample_006247/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6248, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, how is the pillow (red bbox) positioned in relation to the window (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, closer, front, \nB. left, , closer, front, behind\nC. left, below, closer, front, front\nD. left, below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006248/000.jpg", + "spar_bench/sample_006248/001.jpg", + "spar_bench/sample_006248/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6249, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, how is the mirror (red bbox) positioned in relation to the toilet (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , below, farther, behind, behind\nB. left, above, farther, front, front\nC. left, , farther, front, front\nD. left, above, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006249/000.jpg", + "spar_bench/sample_006249/001.jpg", + "spar_bench/sample_006249/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6250, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the chair (red bbox) be found compared to the chair (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , farther, behind, behind\nB. right, , farther, front, behind\nC. left, , farther, front, front\nD. left, below, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006250/000.jpg", + "spar_bench/sample_006250/001.jpg", + "spar_bench/sample_006250/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6251, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of the bathtub (red bbox) with the container (blue bbox) in the two images? Answer based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, , behind, front\nB. left, , farther, front, front\nC. left, , farther, front, behind\nD. right, above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006251/000.jpg", + "spar_bench/sample_006251/001.jpg", + "spar_bench/sample_006251/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6252, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the bathroom stall (red bbox) relative to the bathroom stall door (blue bbox) in the two images, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, closer, front, front\nB. left, above, , front, behind\nC. right, below, , behind, front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006252/000.jpg", + "spar_bench/sample_006252/001.jpg", + "spar_bench/sample_006252/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6253, + "data_source": "SPAR-Bench", + "question": "How would you describe the position of the chair (red bbox) relative to the table (blue bbox) in the two images? Provide the direction relative to the observer. Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , closer, front, behind\nB. left, below, farther, , behind\nC. right, , farther, front, front\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006253/000.jpg", + "spar_bench/sample_006253/001.jpg", + "spar_bench/sample_006253/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6254, + "data_source": "SPAR-Bench", + "question": "Where does the blackboard (red bbox) lie in relation to the fire extinguisher (blue bbox) in the two images from the observer's perspective? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, farther, behind, behind\nB. right, above, , behind, behind\nC. right, above, farther, behind, behind\nD. , above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006254/000.jpg", + "spar_bench/sample_006254/001.jpg", + "spar_bench/sample_006254/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6255, + "data_source": "SPAR-Bench", + "question": "Where is the trash can (red bbox) situated in the two images relative to the trash can (blue bbox) from the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, below, closer, , front\nB. left, , closer, front, behind\nC. left, below, closer, front, behind\nD. left, , , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006255/000.jpg", + "spar_bench/sample_006255/001.jpg", + "spar_bench/sample_006255/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6256, + "data_source": "SPAR-Bench", + "question": "Where is the monitor (red bbox) situated in the two images relative to the office chair (blue bbox) from the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, farther, behind, front\nB. left, above, closer, behind, front\nC. left, above, farther, behind, front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006256/000.jpg", + "spar_bench/sample_006256/001.jpg", + "spar_bench/sample_006256/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6257, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, specify where the trash can (red bbox) is located compared to the sink (blue bbox) in the given two images. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, above, closer, , behind\nB. left, below, farther, front, front\nC. left, below, farther, behind, front\nD. left, below, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006257/000.jpg", + "spar_bench/sample_006257/001.jpg", + "spar_bench/sample_006257/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6258, + "data_source": "SPAR-Bench", + "question": "Where is the cup (red bbox) located compared to the laptop (blue bbox) as seen from the observer's perspective in the two images? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, closer, front, front\nB. right, below, farther, front, \nC. , below, closer, front, behind\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006258/000.jpg", + "spar_bench/sample_006258/001.jpg", + "spar_bench/sample_006258/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6259, + "data_source": "SPAR-Bench", + "question": "Where is the armchair (red bbox) found spatially in comparison to the table (blue bbox) in the two images, according to the observer? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, farther, , front\nB. right, above, farther, front, front\nC. right, below, farther, , behind\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006259/000.jpg", + "spar_bench/sample_006259/001.jpg", + "spar_bench/sample_006259/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6260, + "data_source": "SPAR-Bench", + "question": "Where does the shelf (red bbox) appear to be located in relation to the printer (blue bbox) in the given two images, relative to the observer? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, farther, front, \nB. right, below, farther, front, \nC. left, below, closer, , front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006260/000.jpg", + "spar_bench/sample_006260/001.jpg", + "spar_bench/sample_006260/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6261, + "data_source": "SPAR-Bench", + "question": "Describe the location of the stair rail (red bbox) with respect to the stair rail (blue bbox) in the given two images, relative to the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, , front, front\nB. left, , farther, front, front\nC. left, below, farther, front, front\nD. right, below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006261/000.jpg", + "spar_bench/sample_006261/001.jpg", + "spar_bench/sample_006261/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6262, + "data_source": "SPAR-Bench", + "question": "Describe the relative orientation of the chair (red bbox) to the shelf (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , farther, front, front\nB. left, , closer, front, front\nC. left, above, farther, front, behind\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006262/000.jpg", + "spar_bench/sample_006262/001.jpg", + "spar_bench/sample_006262/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6263, + "data_source": "SPAR-Bench", + "question": "As seen in the two images, where is the soda stream (red bbox) located relative to the paper towel roll (blue bbox) from the observer's point of view? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, , farther, front, front\nB. right, above, farther, , behind\nC. right, above, farther, behind, front\nD. left, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006263/000.jpg", + "spar_bench/sample_006263/001.jpg", + "spar_bench/sample_006263/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6264, + "data_source": "SPAR-Bench", + "question": "Using the two images, specify the position of the copier (red bbox) with respect to the cabinet (blue bbox) from the viewpoint of the observer. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , closer, behind, front\nB. left, above, , front, front\nC. left, , closer, front, behind\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006264/000.jpg", + "spar_bench/sample_006264/001.jpg", + "spar_bench/sample_006264/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6265, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, how is the kitchen cabinet (red bbox) placed compared to the breakfast bar (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, , , front, front\nB. left, above, farther, , front\nC. left, , closer, front, behind\nD. , below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006265/000.jpg", + "spar_bench/sample_006265/001.jpg", + "spar_bench/sample_006265/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6266, + "data_source": "SPAR-Bench", + "question": "Where is the suitcase (red bbox) found relative to the window (blue bbox) in the two images, as seen by the observer? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, closer, front, front\nB. left, below, closer, , behind\nC. , above, closer, front, front\nD. left, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006266/000.jpg", + "spar_bench/sample_006266/001.jpg", + "spar_bench/sample_006266/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6267, + "data_source": "SPAR-Bench", + "question": "Where does the kitchen cabinets (red bbox) appear to be located in relation to the sink (blue bbox) in the given two images, relative to the observer? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, farther, front, front\nB. , above, farther, front, front\nC. left, above, closer, front, behind\nD. , below, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006267/000.jpg", + "spar_bench/sample_006267/001.jpg", + "spar_bench/sample_006267/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6268, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the chair (red bbox) located relative to the chair (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , farther, front, front\nB. left, below, farther, , front\nC. left, below, farther, behind, front\nD. left, below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006268/000.jpg", + "spar_bench/sample_006268/001.jpg", + "spar_bench/sample_006268/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6269, + "data_source": "SPAR-Bench", + "question": "Describe the positioning of the toilet (red bbox) with respect to the toilet flush button (blue bbox) in the two images, based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, above, farther, , front\nB. right, below, closer, front, behind\nC. left, below, , front, behind\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006269/000.jpg", + "spar_bench/sample_006269/001.jpg", + "spar_bench/sample_006269/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6270, + "data_source": "SPAR-Bench", + "question": "Where does the monitor (red bbox) appear to be located in relation to the chair (blue bbox) in the given two images, relative to the observer? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, farther, , front\nB. left, below, farther, behind, \nC. left, below, closer, behind, front\nD. left, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006270/000.jpg", + "spar_bench/sample_006270/001.jpg", + "spar_bench/sample_006270/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6271, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the table (red bbox) located relative to the storage bin (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , farther, front, front\nB. left, below, , front, front\nC. right, below, closer, behind, front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006271/000.jpg", + "spar_bench/sample_006271/001.jpg", + "spar_bench/sample_006271/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6272, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, describe the spatial orientation of the shelf (red bbox) relative to the cabinet (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , above, closer, behind, behind\nB. left, below, farther, , front\nC. right, , farther, behind, front\nD. , above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006272/000.jpg", + "spar_bench/sample_006272/001.jpg", + "spar_bench/sample_006272/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6273, + "data_source": "SPAR-Bench", + "question": "Analyze the two images and determine the directional relationship between the box (red bbox) and the box (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, farther, front, \nB. left, , farther, front, front\nC. right, above, farther, front, front\nD. left, above, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006273/000.jpg", + "spar_bench/sample_006273/001.jpg", + "spar_bench/sample_006273/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6274, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, how does the mattress (red bbox) align relative to the dollhouse (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, farther, , behind\nB. left, below, closer, behind, behind\nC. left, above, , front, behind\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006274/000.jpg", + "spar_bench/sample_006274/001.jpg", + "spar_bench/sample_006274/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6275, + "data_source": "SPAR-Bench", + "question": "Where, relative to the observer's viewpoint, is the shoes (red bbox) located in relation to the bench (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, closer, behind, front\nB. left, above, closer, front, \nC. left, below, closer, front, front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006275/000.jpg", + "spar_bench/sample_006275/001.jpg", + "spar_bench/sample_006275/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6276, + "data_source": "SPAR-Bench", + "question": "Describe how the table (red bbox) is located compared to the chair (blue bbox) in the two images, using the observer's point of view. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , farther, behind, front\nB. , above, closer, front, front\nC. left, below, closer, behind, behind\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006276/000.jpg", + "spar_bench/sample_006276/001.jpg", + "spar_bench/sample_006276/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6277, + "data_source": "SPAR-Bench", + "question": "In the two images, describe the spatial positioning of the picture (red bbox) relative to the cabinet (blue bbox) from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, closer, , front\nB. left, above, farther, front, front\nC. right, above, , front, front\nD. left, above, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006277/000.jpg", + "spar_bench/sample_006277/001.jpg", + "spar_bench/sample_006277/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6278, + "data_source": "SPAR-Bench", + "question": "In the given two images, what is the spatial alignment of the ping pong table (red bbox) relative to the table (blue bbox) as perceived by the observer? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, farther, front, \nB. right, , farther, front, front\nC. left, below, farther, behind, \nD. right, below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006278/000.jpg", + "spar_bench/sample_006278/001.jpg", + "spar_bench/sample_006278/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6279, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, describe the alignment of the wood (red bbox) in relation to the wood beam (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, farther, , behind\nB. left, below, farther, front, front\nC. left, above, , front, front\nD. right, above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006279/000.jpg", + "spar_bench/sample_006279/001.jpg", + "spar_bench/sample_006279/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6280, + "data_source": "SPAR-Bench", + "question": "In the provided two images, explain the location of the sink (red bbox) with respect to the sign (blue bbox), considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, closer, behind, behind\nB. right, below, farther, front, behind\nC. right, below, farther, behind, front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006280/000.jpg", + "spar_bench/sample_006280/001.jpg", + "spar_bench/sample_006280/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6281, + "data_source": "SPAR-Bench", + "question": "How does the monitor (red bbox) align spatially with the file cabinet (blue bbox) in the two images? Respond based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, , farther, front, front\nB. right, below, closer, front, behind\nC. left, above, , behind, front\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006281/000.jpg", + "spar_bench/sample_006281/001.jpg", + "spar_bench/sample_006281/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6282, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, what is the spatial position of the chair (red bbox) relative to the chair (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, closer, front, behind\nB. right, , closer, front, front\nC. right, below, farther, front, \nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006282/000.jpg", + "spar_bench/sample_006282/001.jpg", + "spar_bench/sample_006282/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6283, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the chair (red bbox) be found compared to the chair (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, farther, , behind\nB. right, , closer, behind, front\nC. right, , closer, front, front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006283/000.jpg", + "spar_bench/sample_006283/001.jpg", + "spar_bench/sample_006283/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6284, + "data_source": "SPAR-Bench", + "question": "In the two images, describe the spatial positioning of the chair (red bbox) relative to the chair (blue bbox) from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , farther, front, behind\nB. left, , closer, behind, front\nC. left, , closer, front, front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006284/000.jpg", + "spar_bench/sample_006284/001.jpg", + "spar_bench/sample_006284/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6285, + "data_source": "SPAR-Bench", + "question": "In the provided two images, how is the chair (red bbox) positioned in relation to the window (blue bbox)? Specify the direction from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, farther, , behind\nB. left, above, , behind, front\nC. left, above, farther, front, \nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006285/000.jpg", + "spar_bench/sample_006285/001.jpg", + "spar_bench/sample_006285/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6286, + "data_source": "SPAR-Bench", + "question": "Based on the observer's point of view, how is the stool (red bbox) oriented in relation to the couch (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , closer, front, front\nB. left, below, farther, front, behind\nC. right, above, closer, front, behind\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006286/000.jpg", + "spar_bench/sample_006286/001.jpg", + "spar_bench/sample_006286/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6287, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, describe the spatial orientation of the washing machines (red bbox) relative to the vending machine (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , closer, front, front\nB. left, , farther, behind, behind\nC. right, , closer, front, front\nD. right, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006287/000.jpg", + "spar_bench/sample_006287/001.jpg", + "spar_bench/sample_006287/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6288, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, how is the toilet paper (red bbox) positioned in relation to the backpack (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , closer, front, front\nB. , below, farther, front, behind\nC. right, , closer, front, front\nD. left, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006288/000.jpg", + "spar_bench/sample_006288/001.jpg", + "spar_bench/sample_006288/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6289, + "data_source": "SPAR-Bench", + "question": "In the provided two images, where is the trash can (red bbox) in comparison to the backpack (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, closer, , behind\nB. right, above, farther, front, \nC. right, below, farther, , front\nD. left, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006289/000.jpg", + "spar_bench/sample_006289/001.jpg", + "spar_bench/sample_006289/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6290, + "data_source": "SPAR-Bench", + "question": "In the two images, how does the paper towel dispenser (red bbox) appear spatially in relation to the trash can (blue bbox), as observed by the viewer? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, closer, , front\nB. left, above, farther, behind, \nC. left, above, closer, , behind\nD. right, above, farther, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006290/000.jpg", + "spar_bench/sample_006290/001.jpg", + "spar_bench/sample_006290/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6291, + "data_source": "SPAR-Bench", + "question": "Describe the relative position of the armchair (red bbox) to the armchair (blue bbox) in the two images as seen from the observer's point of view. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, closer, front, behind\nB. left, above, closer, behind, \nC. right, , closer, front, front\nD. right, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006291/000.jpg", + "spar_bench/sample_006291/001.jpg", + "spar_bench/sample_006291/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6292, + "data_source": "SPAR-Bench", + "question": "How does the file cabinet (red bbox) align spatially with the board (blue bbox) in the two images? Respond based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , closer, front, front\nB. left, , farther, behind, behind\nC. left, above, , front, front\nD. right, above, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006292/000.jpg", + "spar_bench/sample_006292/001.jpg", + "spar_bench/sample_006292/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6293, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, describe the spatial orientation of the office chair (red bbox) relative to the office chair (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , closer, front, front\nB. right, below, closer, behind, \nC. right, below, , behind, front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006293/000.jpg", + "spar_bench/sample_006293/001.jpg", + "spar_bench/sample_006293/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6294, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is the computer tower (red bbox) situated in relation to the chair (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , farther, front, behind\nB. left, above, , front, behind\nC. right, , closer, front, behind\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006294/000.jpg", + "spar_bench/sample_006294/001.jpg", + "spar_bench/sample_006294/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6295, + "data_source": "SPAR-Bench", + "question": "Where does the chair (red bbox) appear in relation to the jacket (blue bbox) in the two images from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, , behind, front\nB. left, , closer, front, behind\nC. left, , closer, behind, behind\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006295/000.jpg", + "spar_bench/sample_006295/001.jpg", + "spar_bench/sample_006295/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6296, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, where can the bookshelf (red bbox) be seen relative to the cabinet (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, closer, front, \nB. left, , farther, behind, front\nC. left, , closer, front, front\nD. left, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006296/000.jpg", + "spar_bench/sample_006296/001.jpg", + "spar_bench/sample_006296/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6297, + "data_source": "SPAR-Bench", + "question": "In the given two images, how does the chair (red bbox) compare spatially to the window (blue bbox) from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, farther, front, front\nB. right, below, farther, front, behind\nC. left, above, farther, front, front\nD. right, above, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006297/000.jpg", + "spar_bench/sample_006297/001.jpg", + "spar_bench/sample_006297/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6298, + "data_source": "SPAR-Bench", + "question": "In the provided two images, how is the computer tower (red bbox) positioned in relation to the monitor (blue bbox)? Specify the direction from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, closer, front, front\nB. right, , farther, front, behind\nC. , below, closer, front, behind\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006298/000.jpg", + "spar_bench/sample_006298/001.jpg", + "spar_bench/sample_006298/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6299, + "data_source": "SPAR-Bench", + "question": "Identify the relative spatial arrangement of the armchair (red bbox) and the picture (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, farther, behind, \nB. , below, closer, behind, behind\nC. left, below, closer, front, front\nD. left, above, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006299/000.jpg", + "spar_bench/sample_006299/001.jpg", + "spar_bench/sample_006299/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6300, + "data_source": "SPAR-Bench", + "question": "Based on the observer's viewpoint, where is the coat (red bbox) in relation to the shelf (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , farther, front, front\nB. right, , farther, behind, behind\nC. right, above, closer, front, front\nD. left, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006300/000.jpg", + "spar_bench/sample_006300/001.jpg", + "spar_bench/sample_006300/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6301, + "data_source": "SPAR-Bench", + "question": "In the two images, where does the chair (red bbox) lie with respect to the chair (blue bbox) based on the observer's frame of reference? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, closer, , front\nB. right, above, , behind, front\nC. right, , farther, front, front\nD. , above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006301/000.jpg", + "spar_bench/sample_006301/001.jpg", + "spar_bench/sample_006301/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6302, + "data_source": "SPAR-Bench", + "question": "What is the spatial orientation of the picture (red bbox) compared to the pillow (blue bbox) in the two images, relative to the observer's view? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, , front, front\nB. right, above, farther, front, front\nC. left, above, , front, front\nD. left, above, closer, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006302/000.jpg", + "spar_bench/sample_006302/001.jpg", + "spar_bench/sample_006302/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6303, + "data_source": "SPAR-Bench", + "question": "Identify the relative spatial arrangement of the bathroom vanity (red bbox) and the sink (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, , front, behind\nB. right, , , front, front\nC. right, above, , behind, behind\nD. , below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006303/000.jpg", + "spar_bench/sample_006303/001.jpg", + "spar_bench/sample_006303/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6304, + "data_source": "SPAR-Bench", + "question": "In the provided two images, explain the location of the bathroom cabinet (red bbox) with respect to the toilet paper (blue bbox), considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , farther, front, front\nB. left, above, , behind, behind\nC. left, , closer, front, behind\nD. left, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006304/000.jpg", + "spar_bench/sample_006304/001.jpg", + "spar_bench/sample_006304/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6305, + "data_source": "SPAR-Bench", + "question": "What is the observer's perspective on the spatial arrangement of the chair (red bbox) with respect to the tennis racket bag (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, farther, behind, \nB. left, above, , behind, front\nC. left, below, closer, front, front\nD. right, , , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006305/000.jpg", + "spar_bench/sample_006305/001.jpg", + "spar_bench/sample_006305/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6306, + "data_source": "SPAR-Bench", + "question": "In the provided two images, explain the location of the suitcase (red bbox) with respect to the closet wardrobe (blue bbox), considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , closer, front, front\nB. left, , closer, front, behind\nC. , above, closer, front, behind\nD. left, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006306/000.jpg", + "spar_bench/sample_006306/001.jpg", + "spar_bench/sample_006306/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6307, + "data_source": "SPAR-Bench", + "question": "How does the plant (red bbox) compare in position to the dresser (blue bbox) in the given two images? Answer relative to the observer's frame of reference. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, closer, front, front\nB. left, above, closer, , front\nC. left, above, farther, front, front\nD. , above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006307/000.jpg", + "spar_bench/sample_006307/001.jpg", + "spar_bench/sample_006307/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6308, + "data_source": "SPAR-Bench", + "question": "Describe the relative positioning of the bookshelf (red bbox) with respect to the books (blue bbox) from the observer\u2019s perspective. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, closer, , behind\nB. right, , farther, front, behind\nC. left, , farther, front, front\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006308/000.jpg", + "spar_bench/sample_006308/001.jpg", + "spar_bench/sample_006308/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6309, + "data_source": "SPAR-Bench", + "question": "Where is the table (red bbox) found relative to the chair (blue bbox) in the two images, as seen by the observer? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , closer, front, front\nB. , above, farther, front, front\nC. , above, closer, front, front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006309/000.jpg", + "spar_bench/sample_006309/001.jpg", + "spar_bench/sample_006309/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6310, + "data_source": "SPAR-Bench", + "question": "Where is the chair (red bbox) located compared to the table (blue bbox) as seen from the observer's perspective in the two images? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , farther, front, front\nB. left, above, , front, behind\nC. right, below, farther, behind, \nD. right, below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006310/000.jpg", + "spar_bench/sample_006310/001.jpg", + "spar_bench/sample_006310/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6311, + "data_source": "SPAR-Bench", + "question": "As seen by the observer, how is the table (red bbox) positioned compared to the chair (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, closer, front, \nB. left, below, farther, , behind\nC. right, , closer, front, behind\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006311/000.jpg", + "spar_bench/sample_006311/001.jpg", + "spar_bench/sample_006311/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6312, + "data_source": "SPAR-Bench", + "question": "Based on the observer's viewpoint, where is the wood beam (red bbox) in relation to the window (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, closer, behind, front\nB. left, below, farther, front, front\nC. right, below, closer, , front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006312/000.jpg", + "spar_bench/sample_006312/001.jpg", + "spar_bench/sample_006312/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6313, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, explain the directional relationship between the bed (red bbox) and the nightstand (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, closer, behind, \nB. left, below, farther, front, front\nC. left, , closer, front, front\nD. left, above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006313/000.jpg", + "spar_bench/sample_006313/001.jpg", + "spar_bench/sample_006313/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6314, + "data_source": "SPAR-Bench", + "question": "In terms of spatial relationships, where is the trash can (red bbox) located compared to the bag (blue bbox) in the two images? Consider the observer's frame of reference. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, closer, front, front\nB. right, above, closer, , front\nC. right, , closer, front, front\nD. , below, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006314/000.jpg", + "spar_bench/sample_006314/001.jpg", + "spar_bench/sample_006314/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6315, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, what is the spatial position of the coffee table (red bbox) relative to the armchair (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , closer, front, behind\nB. right, , farther, front, behind\nC. right, , closer, front, front\nD. left, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006315/000.jpg", + "spar_bench/sample_006315/001.jpg", + "spar_bench/sample_006315/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6316, + "data_source": "SPAR-Bench", + "question": "What is the spatial orientation of the broom (red bbox) compared to the toilet paper (blue bbox) in the two images, relative to the observer's view? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, below, farther, front, front\nB. left, above, closer, behind, front\nC. right, below, farther, front, \nD. , above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006316/000.jpg", + "spar_bench/sample_006316/001.jpg", + "spar_bench/sample_006316/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6317, + "data_source": "SPAR-Bench", + "question": "In the two images, where is the file cabinet (red bbox) located compared to the cup (blue bbox) based on the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , below, closer, front, front\nB. , below, farther, front, front\nC. , above, closer, behind, front\nD. left, below, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006317/000.jpg", + "spar_bench/sample_006317/001.jpg", + "spar_bench/sample_006317/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6318, + "data_source": "SPAR-Bench", + "question": "Examine the two images and determine the relative position of the box (red bbox) to the stove (blue bbox) as observed by the viewer. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, , front, front\nB. left, , closer, front, front\nC. left, above, farther, front, front\nD. left, below, closer, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006318/000.jpg", + "spar_bench/sample_006318/001.jpg", + "spar_bench/sample_006318/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6319, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, where does the monitor (red bbox) appear relative to the bookshelf (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , closer, behind, behind\nB. right, , closer, front, front\nC. left, below, farther, , behind\nD. left, above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006319/000.jpg", + "spar_bench/sample_006319/001.jpg", + "spar_bench/sample_006319/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6320, + "data_source": "SPAR-Bench", + "question": "Using the observer's frame of reference, describe how the backpack (red bbox) is placed concerning the coatrack (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , closer, front, front\nB. right, below, farther, , behind\nC. , below, farther, front, front\nD. left, below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006320/000.jpg", + "spar_bench/sample_006320/001.jpg", + "spar_bench/sample_006320/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6321, + "data_source": "SPAR-Bench", + "question": "Examine the two images and determine the relative position of the desk (red bbox) to the plant (blue bbox) as observed by the viewer. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , above, farther, front, front\nB. right, below, closer, front, front\nC. right, above, closer, front, front\nD. right, , closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006321/000.jpg", + "spar_bench/sample_006321/001.jpg", + "spar_bench/sample_006321/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6322, + "data_source": "SPAR-Bench", + "question": "Where does the bench (red bbox) lie in relation to the towel (blue bbox) in the two images from the observer's perspective? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, farther, front, behind\nB. right, below, farther, , front\nC. right, below, farther, behind, front\nD. left, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006322/000.jpg", + "spar_bench/sample_006322/001.jpg", + "spar_bench/sample_006322/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6323, + "data_source": "SPAR-Bench", + "question": "Can you locate the chair (red bbox) compared to the chair (blue bbox) in the two images, using the observer's point of view? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, closer, front, front\nB. right, below, farther, front, front\nC. right, , farther, front, front\nD. right, above, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006323/000.jpg", + "spar_bench/sample_006323/001.jpg", + "spar_bench/sample_006323/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6324, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, how is the monitor (red bbox) placed compared to the monitor (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , farther, front, front\nB. , above, closer, front, behind\nC. left, below, farther, behind, front\nD. left, , farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006324/000.jpg", + "spar_bench/sample_006324/001.jpg", + "spar_bench/sample_006324/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6325, + "data_source": "SPAR-Bench", + "question": "In the given two images, identify the location of the window (red bbox) with respect to the chair (blue bbox) based on the observer's direction. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, farther, behind, front\nB. left, above, closer, behind, \nC. left, below, farther, , behind\nD. right, above, farther, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006325/000.jpg", + "spar_bench/sample_006325/001.jpg", + "spar_bench/sample_006325/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6326, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, how is the couch (red bbox) positioned in relation to the couch (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , below, closer, behind, front\nB. left, below, farther, front, behind\nC. right, , , front, front\nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006326/000.jpg", + "spar_bench/sample_006326/001.jpg", + "spar_bench/sample_006326/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6327, + "data_source": "SPAR-Bench", + "question": "In the two images, how does the blanket (red bbox) appear spatially in relation to the desk (blue bbox), as observed by the viewer? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , closer, front, front\nB. left, below, closer, , behind\nC. left, , closer, behind, behind\nD. left, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006327/000.jpg", + "spar_bench/sample_006327/001.jpg", + "spar_bench/sample_006327/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6328, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the trash can (red bbox) relative to the cabinet (blue bbox) in the two images, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, , front, front\nB. right, , , front, front\nC. right, , closer, behind, front\nD. right, , farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006328/000.jpg", + "spar_bench/sample_006328/001.jpg", + "spar_bench/sample_006328/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6329, + "data_source": "SPAR-Bench", + "question": "In the provided two images, where is the toilet paper dispenser (red bbox) in comparison to the toilet paper (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, , front, front\nB. left, , closer, front, front\nC. left, above, , front, front\nD. left, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006329/000.jpg", + "spar_bench/sample_006329/001.jpg", + "spar_bench/sample_006329/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6330, + "data_source": "SPAR-Bench", + "question": "Please describe how the chair (red bbox) is oriented relative to the table (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, closer, , front\nB. right, , farther, front, front\nC. right, above, closer, front, front\nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006330/000.jpg", + "spar_bench/sample_006330/001.jpg", + "spar_bench/sample_006330/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6331, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how is the laundry detergent (red bbox) positioned in comparison to the washing machines (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, above, closer, behind, behind\nB. right, below, , behind, front\nC. left, above, closer, front, front\nD. left, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006331/000.jpg", + "spar_bench/sample_006331/001.jpg", + "spar_bench/sample_006331/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6332, + "data_source": "SPAR-Bench", + "question": "Where is the chair (red bbox) located compared to the table (blue bbox) as seen from the observer's perspective in the two images? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , closer, front, behind\nB. , above, closer, behind, behind\nC. left, above, farther, behind, front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006332/000.jpg", + "spar_bench/sample_006332/001.jpg", + "spar_bench/sample_006332/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6333, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, how is the kitchen cabinet (red bbox) positioned in relation to the kitchen cabinet (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , closer, front, front\nB. right, above, closer, front, \nC. right, , closer, front, behind\nD. right, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006333/000.jpg", + "spar_bench/sample_006333/001.jpg", + "spar_bench/sample_006333/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6334, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, where does the chair (red bbox) appear relative to the window (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, farther, front, behind\nB. right, above, closer, front, front\nC. right, , closer, front, front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006334/000.jpg", + "spar_bench/sample_006334/001.jpg", + "spar_bench/sample_006334/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6335, + "data_source": "SPAR-Bench", + "question": "Analyze the two images and state where the laptop (red bbox) is in relation to the chair (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, , farther, front, front\nB. right, above, closer, , front\nC. , above, farther, behind, behind\nD. left, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006335/000.jpg", + "spar_bench/sample_006335/001.jpg", + "spar_bench/sample_006335/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6336, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, specify where the shoes (red bbox) is located compared to the refrigerator (blue bbox) in the given two images. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, , behind, front\nB. left, below, closer, , front\nC. left, below, closer, behind, \nD. left, below, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006336/000.jpg", + "spar_bench/sample_006336/001.jpg", + "spar_bench/sample_006336/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6337, + "data_source": "SPAR-Bench", + "question": "Where is the tissue box (red bbox) found spatially in comparison to the monitor (blue bbox) in the two images, according to the observer? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, below, , front, front\nB. left, below, farther, front, \nC. left, below, closer, front, front\nD. left, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006337/000.jpg", + "spar_bench/sample_006337/001.jpg", + "spar_bench/sample_006337/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6338, + "data_source": "SPAR-Bench", + "question": "Where is the picture (red bbox) found relative to the ping pong table (blue bbox) in the two images, as seen by the observer? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, farther, front, front\nB. right, below, closer, , front\nC. right, below, farther, , behind\nD. left, above, , behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006338/000.jpg", + "spar_bench/sample_006338/001.jpg", + "spar_bench/sample_006338/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6339, + "data_source": "SPAR-Bench", + "question": "Describe the relative position of the trash bin (red bbox) to the dispenser (blue bbox) in the two images as seen from the observer's point of view. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, closer, , behind\nB. right, below, closer, front, \nC. right, below, farther, front, behind\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006339/000.jpg", + "spar_bench/sample_006339/001.jpg", + "spar_bench/sample_006339/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6340, + "data_source": "SPAR-Bench", + "question": "In the provided two images, what is the positional relationship of the trash can (red bbox) to the chair (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, farther, , behind\nB. right, , closer, front, front\nC. right, , farther, front, front\nD. left, , closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006340/000.jpg", + "spar_bench/sample_006340/001.jpg", + "spar_bench/sample_006340/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6341, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, how is the pen (red bbox) located with respect to the whiteboard eraser (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , farther, front, behind\nB. right, below, closer, behind, \nC. right, below, closer, front, front\nD. right, below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006341/000.jpg", + "spar_bench/sample_006341/001.jpg", + "spar_bench/sample_006341/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6342, + "data_source": "SPAR-Bench", + "question": "Based on the observer's point of view, how is the beanbag (red bbox) oriented in relation to the stool (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, closer, behind, front\nB. left, , closer, behind, front\nC. left, below, closer, front, front\nD. right, above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006342/000.jpg", + "spar_bench/sample_006342/001.jpg", + "spar_bench/sample_006342/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6343, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, where is the chair (red bbox) situated in relation to the trash bin (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, farther, behind, front\nB. right, , closer, front, front\nC. right, , closer, front, behind\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006343/000.jpg", + "spar_bench/sample_006343/001.jpg", + "spar_bench/sample_006343/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6344, + "data_source": "SPAR-Bench", + "question": "In the provided two images, how is the shelf (red bbox) positioned in relation to the dishwasher (blue bbox)? Specify the direction from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , closer, behind, behind\nB. left, above, farther, front, \nC. left, , closer, front, front\nD. right, below, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006344/000.jpg", + "spar_bench/sample_006344/001.jpg", + "spar_bench/sample_006344/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6345, + "data_source": "SPAR-Bench", + "question": "How does the structure (red bbox) relate spatially to the smoke detector (blue bbox) in the two images, as seen by the observer? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, , behind, front\nB. right, above, closer, , front\nC. left, above, closer, behind, \nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006345/000.jpg", + "spar_bench/sample_006345/001.jpg", + "spar_bench/sample_006345/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6346, + "data_source": "SPAR-Bench", + "question": "What is the spatial orientation of the monitor (red bbox) compared to the box (blue bbox) in the two images, relative to the observer's view? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, farther, , front\nB. , above, closer, front, behind\nC. right, below, farther, behind, \nD. right, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006346/000.jpg", + "spar_bench/sample_006346/001.jpg", + "spar_bench/sample_006346/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6347, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the table (red bbox) relative to the shelf (blue bbox) in the two images, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, farther, front, behind\nB. right, below, closer, behind, behind\nC. left, below, closer, front, front\nD. left, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006347/000.jpg", + "spar_bench/sample_006347/001.jpg", + "spar_bench/sample_006347/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6348, + "data_source": "SPAR-Bench", + "question": "Please describe how the chair (red bbox) is oriented relative to the printer (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , farther, behind, behind\nB. left, below, , front, front\nC. left, below, farther, behind, behind\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006348/000.jpg", + "spar_bench/sample_006348/001.jpg", + "spar_bench/sample_006348/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6349, + "data_source": "SPAR-Bench", + "question": "Identify the relative spatial arrangement of the bottle (red bbox) and the cabinet (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, , front, behind\nB. right, below, farther, front, front\nC. , above, farther, front, front\nD. left, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006349/000.jpg", + "spar_bench/sample_006349/001.jpg", + "spar_bench/sample_006349/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6350, + "data_source": "SPAR-Bench", + "question": "Describe the position of the table (red bbox) concerning the box (blue bbox) in the two images, from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, farther, behind, behind\nB. right, below, closer, front, front\nC. right, , closer, front, front\nD. right, below, closer, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006350/000.jpg", + "spar_bench/sample_006350/001.jpg", + "spar_bench/sample_006350/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6351, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, how is the pillar (red bbox) positioned in relation to the electrical duct (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, farther, , behind\nB. , above, farther, front, front\nC. left, , farther, front, front\nD. right, , farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006351/000.jpg", + "spar_bench/sample_006351/001.jpg", + "spar_bench/sample_006351/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6352, + "data_source": "SPAR-Bench", + "question": "How does the smoke detector (red bbox) relate spatially to the computer tower (blue bbox) in the two images, as seen by the observer? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, closer, front, \nB. left, above, farther, front, front\nC. left, above, closer, front, front\nD. left, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006352/000.jpg", + "spar_bench/sample_006352/001.jpg", + "spar_bench/sample_006352/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6353, + "data_source": "SPAR-Bench", + "question": "Describe the relative positioning of the box (red bbox) compared to the light switch (blue bbox) in the two images, based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, closer, front, behind\nB. left, above, , front, behind\nC. left, below, closer, front, front\nD. left, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006353/000.jpg", + "spar_bench/sample_006353/001.jpg", + "spar_bench/sample_006353/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6354, + "data_source": "SPAR-Bench", + "question": "In the two images, how is the wardrobe (red bbox) positioned in relation to the tote bag (blue bbox), from the observer's view? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, farther, behind, behind\nB. left, below, closer, front, behind\nC. left, below, farther, , behind\nD. , below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006354/000.jpg", + "spar_bench/sample_006354/001.jpg", + "spar_bench/sample_006354/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6355, + "data_source": "SPAR-Bench", + "question": "How would you describe the position of the refrigerator (red bbox) relative to the tv stand (blue bbox) in the two images? Provide the direction relative to the observer. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, farther, , behind\nB. left, below, farther, front, front\nC. , below, farther, behind, front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006355/000.jpg", + "spar_bench/sample_006355/001.jpg", + "spar_bench/sample_006355/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6356, + "data_source": "SPAR-Bench", + "question": "What is the spatial arrangement of the heater (red bbox) compared to the windowsill (blue bbox) from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , above, farther, front, front\nB. left, below, farther, front, \nC. right, , closer, front, behind\nD. right, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006356/000.jpg", + "spar_bench/sample_006356/001.jpg", + "spar_bench/sample_006356/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6357, + "data_source": "SPAR-Bench", + "question": "In the two images, how does the light (red bbox) appear spatially in relation to the shoes (blue bbox), as observed by the viewer? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, farther, front, behind\nB. right, , closer, front, behind\nC. right, , farther, front, behind\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006357/000.jpg", + "spar_bench/sample_006357/001.jpg", + "spar_bench/sample_006357/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6358, + "data_source": "SPAR-Bench", + "question": "Describe the positioning of the kitchen cabinet (red bbox) with respect to the stove (blue bbox) in the two images, based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, farther, , behind\nB. , above, , front, front\nC. , above, farther, front, front\nD. right, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006358/000.jpg", + "spar_bench/sample_006358/001.jpg", + "spar_bench/sample_006358/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6359, + "data_source": "SPAR-Bench", + "question": "How is the box (red bbox) spatially located in relation to the microwave (blue bbox) in the two images, as perceived by the observer? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, farther, front, \nB. right, below, farther, behind, behind\nC. right, above, closer, front, front\nD. right, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006359/000.jpg", + "spar_bench/sample_006359/001.jpg", + "spar_bench/sample_006359/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6360, + "data_source": "SPAR-Bench", + "question": "Where does the chair (red bbox) appear to be located in relation to the chair (blue bbox) in the given two images, relative to the observer? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , closer, front, behind\nB. , above, closer, front, front\nC. left, above, farther, , front\nD. right, above, closer, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006360/000.jpg", + "spar_bench/sample_006360/001.jpg", + "spar_bench/sample_006360/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6361, + "data_source": "SPAR-Bench", + "question": "What is the position of the light switch (red bbox) relative to the storage cabinet (blue bbox) in the two images according to the observer's perspective? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , closer, front, front\nB. , above, farther, behind, front\nC. right, , farther, front, front\nD. right, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006361/000.jpg", + "spar_bench/sample_006361/001.jpg", + "spar_bench/sample_006361/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6362, + "data_source": "SPAR-Bench", + "question": "Describe where the power socket (red bbox) lies in relation to the box (blue bbox) in the two images, from the observer's point of view. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, farther, front, behind\nB. left, , farther, behind, behind\nC. right, below, farther, behind, behind\nD. right, above, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006362/000.jpg", + "spar_bench/sample_006362/001.jpg", + "spar_bench/sample_006362/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6363, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the bed (red bbox) be found compared to the curtain (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, closer, , front\nB. right, , closer, behind, front\nC. right, , closer, front, front\nD. right, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006363/000.jpg", + "spar_bench/sample_006363/001.jpg", + "spar_bench/sample_006363/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6364, + "data_source": "SPAR-Bench", + "question": "Where does the window (red bbox) appear to be located in relation to the window (blue bbox) in the given two images, relative to the observer? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , farther, front, front\nB. left, , closer, behind, behind\nC. left, , , front, front\nD. left, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006364/000.jpg", + "spar_bench/sample_006364/001.jpg", + "spar_bench/sample_006364/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6365, + "data_source": "SPAR-Bench", + "question": "In the provided two images, where is the shelf (red bbox) in comparison to the keyboard (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, closer, , front\nB. left, above, closer, front, front\nC. , below, closer, front, front\nD. left, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006365/000.jpg", + "spar_bench/sample_006365/001.jpg", + "spar_bench/sample_006365/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6366, + "data_source": "SPAR-Bench", + "question": "Describe the relative orientation of the board (red bbox) to the box (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, , front, front\nB. right, above, , front, front\nC. , above, farther, front, front\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006366/000.jpg", + "spar_bench/sample_006366/001.jpg", + "spar_bench/sample_006366/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6367, + "data_source": "SPAR-Bench", + "question": "State the position of the whiteboard (red bbox) with respect to the pen (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, farther, behind, front\nB. left, below, , behind, behind\nC. right, above, farther, , front\nD. right, above, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006367/000.jpg", + "spar_bench/sample_006367/001.jpg", + "spar_bench/sample_006367/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6368, + "data_source": "SPAR-Bench", + "question": "Analyze the two images and state where the board (red bbox) is in relation to the pipe (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, closer, front, front\nB. left, below, farther, front, behind\nC. right, below, farther, front, \nD. left, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006368/000.jpg", + "spar_bench/sample_006368/001.jpg", + "spar_bench/sample_006368/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6369, + "data_source": "SPAR-Bench", + "question": "Identify the relative position of the pillow (red bbox) to the carpet (blue bbox) in the two images. Provide the answer based on the observer\u2019s frame of reference. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, closer, front, behind\nB. left, below, closer, behind, front\nC. right, above, closer, front, front\nD. , below, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006369/000.jpg", + "spar_bench/sample_006369/001.jpg", + "spar_bench/sample_006369/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6370, + "data_source": "SPAR-Bench", + "question": "In the given two images, identify the location of the toothpaste (red bbox) relative to the mirror lamp (blue bbox), as seen by the observer. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, closer, , front\nB. left, below, farther, front, \nC. right, , closer, front, front\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006370/000.jpg", + "spar_bench/sample_006370/001.jpg", + "spar_bench/sample_006370/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6371, + "data_source": "SPAR-Bench", + "question": "Where is the computer tower (red bbox) positioned in the two images compared to the heater (blue bbox)? State the direction from the observer's perspective. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , above, closer, front, behind\nB. right, , closer, front, front\nC. right, below, closer, , front\nD. right, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006371/000.jpg", + "spar_bench/sample_006371/001.jpg", + "spar_bench/sample_006371/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6372, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the paper rack (red bbox) relative to the storage cabinet (blue bbox) in the two images, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, , farther, front, front\nB. right, , farther, front, front\nC. right, below, farther, front, behind\nD. , below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006372/000.jpg", + "spar_bench/sample_006372/001.jpg", + "spar_bench/sample_006372/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6373, + "data_source": "SPAR-Bench", + "question": "In the provided two images, what is the positional relationship of the laptop (red bbox) to the fruit (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , above, closer, behind, behind\nB. left, above, closer, behind, \nC. right, above, , front, behind\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006373/000.jpg", + "spar_bench/sample_006373/001.jpg", + "spar_bench/sample_006373/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6374, + "data_source": "SPAR-Bench", + "question": "Using the observer's frame of reference, describe how the stove (red bbox) is placed concerning the chair (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, closer, front, front\nB. , above, farther, behind, front\nC. left, above, farther, behind, front\nD. left, above, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006374/000.jpg", + "spar_bench/sample_006374/001.jpg", + "spar_bench/sample_006374/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6375, + "data_source": "SPAR-Bench", + "question": "Describe how the office chair (red bbox) is situated in relation to the jug (blue bbox) in the two images, considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, , front, front\nB. right, above, closer, front, front\nC. right, , closer, front, front\nD. left, below, closer, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006375/000.jpg", + "spar_bench/sample_006375/001.jpg", + "spar_bench/sample_006375/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6376, + "data_source": "SPAR-Bench", + "question": "Can you describe the position of the computer tower (red bbox) relative to the keyboard (blue bbox) in the given two images? Please base your answer on the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, farther, , front\nB. left, above, closer, front, \nC. left, above, closer, front, front\nD. right, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006376/000.jpg", + "spar_bench/sample_006376/001.jpg", + "spar_bench/sample_006376/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6377, + "data_source": "SPAR-Bench", + "question": "In the provided two images, what is the positional relationship of the monitor (red bbox) to the chair (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, closer, front, front\nB. left, below, closer, front, \nC. right, below, closer, behind, \nD. , above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006377/000.jpg", + "spar_bench/sample_006377/001.jpg", + "spar_bench/sample_006377/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6378, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the helmet (red bbox) be found in relation to the picture (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, closer, , front\nB. right, above, , front, front\nC. left, below, farther, front, \nD. left, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006378/000.jpg", + "spar_bench/sample_006378/001.jpg", + "spar_bench/sample_006378/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6379, + "data_source": "SPAR-Bench", + "question": "Describe how the stapler (red bbox) is situated in relation to the power sockets (blue bbox) in the two images, considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, , front, front\nB. , above, closer, front, front\nC. left, above, closer, front, front\nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006379/000.jpg", + "spar_bench/sample_006379/001.jpg", + "spar_bench/sample_006379/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6380, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of the shelf (red bbox) with the office chair (blue bbox) in the two images? Answer based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , farther, front, behind\nB. right, below, farther, front, front\nC. left, above, farther, behind, \nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006380/000.jpg", + "spar_bench/sample_006380/001.jpg", + "spar_bench/sample_006380/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6381, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, what is the directional placement of the bedside cabinet (red bbox) compared to the bed (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, closer, behind, front\nB. right, below, farther, , front\nC. right, , closer, behind, front\nD. , above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006381/000.jpg", + "spar_bench/sample_006381/001.jpg", + "spar_bench/sample_006381/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6382, + "data_source": "SPAR-Bench", + "question": "Where is the machine (red bbox) found relative to the mouse (blue bbox) in the two images, as seen by the observer? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, farther, front, behind\nB. left, above, farther, behind, behind\nC. right, below, farther, front, \nD. left, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006382/000.jpg", + "spar_bench/sample_006382/001.jpg", + "spar_bench/sample_006382/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6383, + "data_source": "SPAR-Bench", + "question": "In the provided two images, how is the chair (red bbox) positioned in relation to the box (blue bbox)? Specify the direction from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, farther, front, behind\nB. right, below, closer, behind, \nC. left, below, closer, front, front\nD. left, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006383/000.jpg", + "spar_bench/sample_006383/001.jpg", + "spar_bench/sample_006383/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6384, + "data_source": "SPAR-Bench", + "question": "Describe the spatial arrangement of the box (red bbox) and the electrical duct (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, closer, behind, behind\nB. right, below, farther, , front\nC. , below, farther, front, front\nD. right, above, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006384/000.jpg", + "spar_bench/sample_006384/001.jpg", + "spar_bench/sample_006384/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6385, + "data_source": "SPAR-Bench", + "question": "In the provided two images, explain the location of the chair (red bbox) with respect to the printer (blue bbox), considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, , behind, front\nB. left, , closer, behind, front\nC. , below, farther, front, front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006385/000.jpg", + "spar_bench/sample_006385/001.jpg", + "spar_bench/sample_006385/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6386, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the keyboard (red bbox) situated in comparison to the desk (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , farther, behind, front\nB. left, above, closer, front, \nC. right, above, farther, front, behind\nD. right, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006386/000.jpg", + "spar_bench/sample_006386/001.jpg", + "spar_bench/sample_006386/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6387, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, describe the spatial orientation of the trash bin (red bbox) relative to the toilet brush (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , farther, front, front\nB. left, , , front, front\nC. right, above, , front, behind\nD. left, above, closer, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006387/000.jpg", + "spar_bench/sample_006387/001.jpg", + "spar_bench/sample_006387/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6388, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the umbrella (red bbox) relative to the cardboard box (blue bbox) in the two images, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, closer, behind, front\nB. left, below, closer, behind, front\nC. , below, closer, behind, behind\nD. right, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006388/000.jpg", + "spar_bench/sample_006388/001.jpg", + "spar_bench/sample_006388/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6389, + "data_source": "SPAR-Bench", + "question": "Where, relative to the observer's viewpoint, is the table (red bbox) located in relation to the chair (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , farther, front, front\nB. left, , farther, behind, front\nC. right, , farther, behind, front\nD. right, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006389/000.jpg", + "spar_bench/sample_006389/001.jpg", + "spar_bench/sample_006389/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6390, + "data_source": "SPAR-Bench", + "question": "Where is the chair (red bbox) located compared to the chair (blue bbox) as seen from the observer's perspective in the two images? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, , closer, front, front\nB. right, below, closer, behind, \nC. right, , closer, behind, front\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006390/000.jpg", + "spar_bench/sample_006390/001.jpg", + "spar_bench/sample_006390/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6391, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the computer tower (red bbox) be found in relation to the spotlight (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, , front, front\nB. right, , farther, front, behind\nC. left, , farther, front, front\nD. right, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006391/000.jpg", + "spar_bench/sample_006391/001.jpg", + "spar_bench/sample_006391/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6392, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how is the toothpaste (red bbox) positioned in comparison to the washing machine (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, farther, front, front\nB. left, below, farther, , behind\nC. right, above, closer, , front\nD. left, above, , behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006392/000.jpg", + "spar_bench/sample_006392/001.jpg", + "spar_bench/sample_006392/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6393, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the stool (red bbox) be found compared to the box (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , closer, behind, behind\nB. left, below, farther, front, front\nC. left, , farther, front, front\nD. left, below, farther, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006393/000.jpg", + "spar_bench/sample_006393/001.jpg", + "spar_bench/sample_006393/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6394, + "data_source": "SPAR-Bench", + "question": "Where does the windowframe (red bbox) appear in relation to the kitchen cabinet (blue bbox) in the two images from the observer's perspective? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , farther, front, front\nB. left, , closer, front, behind\nC. left, above, farther, , behind\nD. right, above, closer, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006394/000.jpg", + "spar_bench/sample_006394/001.jpg", + "spar_bench/sample_006394/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6395, + "data_source": "SPAR-Bench", + "question": "Considering the observer's perspective, how is the box (red bbox) positioned in relation to the bottle crate (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, closer, , behind\nB. right, above, farther, behind, \nC. right, , farther, front, front\nD. right, below, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006395/000.jpg", + "spar_bench/sample_006395/001.jpg", + "spar_bench/sample_006395/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6396, + "data_source": "SPAR-Bench", + "question": "Describe the positioning of the desk (red bbox) with respect to the computer tower (blue bbox) in the two images, based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, , behind, behind\nB. left, , closer, front, front\nC. left, below, closer, behind, behind\nD. left, , closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006396/000.jpg", + "spar_bench/sample_006396/001.jpg", + "spar_bench/sample_006396/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6397, + "data_source": "SPAR-Bench", + "question": "In terms of spatial relationships, where is the rolling cart (red bbox) located compared to the trash bin (blue bbox) in the two images? Consider the observer's frame of reference. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, , front, behind\nB. left, below, closer, , front\nC. left, , closer, , front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006397/000.jpg", + "spar_bench/sample_006397/001.jpg", + "spar_bench/sample_006397/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6398, + "data_source": "SPAR-Bench", + "question": "Using the observer's frame of reference, describe how the towel (red bbox) is placed concerning the heater (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, , front, front\nB. , below, farther, front, front\nC. right, , , front, front\nD. left, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006398/000.jpg", + "spar_bench/sample_006398/001.jpg", + "spar_bench/sample_006398/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6399, + "data_source": "SPAR-Bench", + "question": "Describe how the alligator clips (red bbox) is situated in relation to the laboratory cabinet (blue bbox) in the two images, considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , farther, front, front\nB. right, above, closer, front, front\nC. , below, farther, front, front\nD. right, above, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006399/000.jpg", + "spar_bench/sample_006399/001.jpg", + "spar_bench/sample_006399/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6400, + "data_source": "SPAR-Bench", + "question": "Where is the window (red bbox) located compared to the machine (blue bbox) as seen from the observer's perspective in the two images? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , farther, behind, front\nB. left, above, farther, front, \nC. left, , closer, behind, front\nD. left, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006400/000.jpg", + "spar_bench/sample_006400/001.jpg", + "spar_bench/sample_006400/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6401, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, describe the heater (red bbox) with respect to the office chair (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , closer, front, front\nB. left, above, , front, behind\nC. , below, farther, front, front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006401/000.jpg", + "spar_bench/sample_006401/001.jpg", + "spar_bench/sample_006401/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6402, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, how is the pipe (red bbox) positioned in relation to the light switch (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , below, farther, front, behind\nB. left, below, closer, front, behind\nC. left, above, farther, , behind\nD. right, below, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006402/000.jpg", + "spar_bench/sample_006402/001.jpg", + "spar_bench/sample_006402/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6403, + "data_source": "SPAR-Bench", + "question": "Using the two images, explain where the chair (red bbox) is located relative to the power socket (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, farther, front, front\nB. right, above, , behind, front\nC. right, , closer, front, front\nD. right, above, , behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006403/000.jpg", + "spar_bench/sample_006403/001.jpg", + "spar_bench/sample_006403/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6404, + "data_source": "SPAR-Bench", + "question": "As seen in the two images, where is the cabinet (red bbox) located relative to the box (blue bbox) from the observer's point of view? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, , behind, front\nB. right, , farther, front, front\nC. right, , farther, behind, front\nD. right, above, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006404/000.jpg", + "spar_bench/sample_006404/001.jpg", + "spar_bench/sample_006404/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6405, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, describe the blackboard (red bbox) with respect to the blackboard frame (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, closer, behind, front\nB. right, , farther, front, front\nC. right, , closer, front, front\nD. left, below, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006405/000.jpg", + "spar_bench/sample_006405/001.jpg", + "spar_bench/sample_006405/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6406, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, describe the location of the toilet paper rolls (red bbox) in relation to the razor (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, closer, , front\nB. left, below, farther, front, front\nC. left, below, closer, front, front\nD. , below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006406/000.jpg", + "spar_bench/sample_006406/001.jpg", + "spar_bench/sample_006406/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6407, + "data_source": "SPAR-Bench", + "question": "In the given two images, how does the monitor (red bbox) compare spatially to the keyboard (blue bbox) from the observer's perspective? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, farther, behind, front\nB. right, above, closer, front, front\nC. right, below, closer, front, front\nD. right, below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006407/000.jpg", + "spar_bench/sample_006407/001.jpg", + "spar_bench/sample_006407/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6408, + "data_source": "SPAR-Bench", + "question": "Based on the observer's point of view, how is the split (red bbox) oriented in relation to the foldable closet (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , farther, front, behind\nB. right, above, farther, front, \nC. right, , farther, front, front\nD. right, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006408/000.jpg", + "spar_bench/sample_006408/001.jpg", + "spar_bench/sample_006408/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6409, + "data_source": "SPAR-Bench", + "question": "How does the window frame (red bbox) relate spatially to the keyboard (blue bbox) in the two images, as seen by the observer? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , closer, front, behind\nB. right, , closer, front, front\nC. left, above, closer, front, front\nD. left, below, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006409/000.jpg", + "spar_bench/sample_006409/001.jpg", + "spar_bench/sample_006409/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6410, + "data_source": "SPAR-Bench", + "question": "Describe the shoe (red bbox) compared to the shoe (blue bbox) in terms of spatial location, relative to the observer's view. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, farther, behind, behind\nB. right, above, farther, front, front\nC. right, below, farther, behind, \nD. right, above, farther, , \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006410/000.jpg", + "spar_bench/sample_006410/001.jpg", + "spar_bench/sample_006410/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6411, + "data_source": "SPAR-Bench", + "question": "What is the spatial arrangement of the bathroom cabinet (red bbox) compared to the bathroom cabinet (blue bbox) from the perspective of the observer? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, farther, behind, behind\nB. left, above, farther, behind, behind\nC. left, , closer, behind, front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006411/000.jpg", + "spar_bench/sample_006411/001.jpg", + "spar_bench/sample_006411/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6412, + "data_source": "SPAR-Bench", + "question": "How does the mouse (red bbox) align spatially with the window (blue bbox) in the two images? Respond based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, closer, front, front\nB. right, , closer, behind, front\nC. right, , farther, front, behind\nD. right, above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006412/000.jpg", + "spar_bench/sample_006412/001.jpg", + "spar_bench/sample_006412/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6413, + "data_source": "SPAR-Bench", + "question": "What is the position of the power strip (red bbox) in comparison to the table (blue bbox) in the two images? Provide the answer as seen by the observer. Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, below, , front, behind\nB. right, , farther, front, front\nC. , below, farther, front, front\nD. right, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006413/000.jpg", + "spar_bench/sample_006413/001.jpg", + "spar_bench/sample_006413/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6414, + "data_source": "SPAR-Bench", + "question": "How does the box (red bbox) align spatially with the box (blue bbox) in the two images? Respond based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , closer, behind, front\nB. right, above, farther, front, front\nC. right, above, closer, front, front\nD. , above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006414/000.jpg", + "spar_bench/sample_006414/001.jpg", + "spar_bench/sample_006414/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6415, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, how does the laboratory equipment (red bbox) align relative to the SPLIT (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, closer, behind, front\nB. , above, closer, front, front\nC. , above, farther, behind, front\nD. right, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006415/000.jpg", + "spar_bench/sample_006415/001.jpg", + "spar_bench/sample_006415/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6416, + "data_source": "SPAR-Bench", + "question": "Where is the office chair (red bbox) found spatially in comparison to the office chair (blue bbox) in the two images, according to the observer? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, , farther, front, behind\nB. right, , closer, front, front\nC. right, , closer, front, behind\nD. right, below, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006416/000.jpg", + "spar_bench/sample_006416/001.jpg", + "spar_bench/sample_006416/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6417, + "data_source": "SPAR-Bench", + "question": "In the provided two images, what is the positional relationship of the box (red bbox) to the heater (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, closer, front, behind\nB. left, , closer, behind, behind\nC. right, above, , behind, front\nD. left, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006417/000.jpg", + "spar_bench/sample_006417/001.jpg", + "spar_bench/sample_006417/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6418, + "data_source": "SPAR-Bench", + "question": "Based on the observer's point of view, how is the bottle (red bbox) oriented in relation to the power socket (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, closer, , front\nB. , below, closer, front, front\nC. left, , farther, behind, behind\nD. right, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006418/000.jpg", + "spar_bench/sample_006418/001.jpg", + "spar_bench/sample_006418/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6419, + "data_source": "SPAR-Bench", + "question": "Where is the decoration (red bbox) found spatially in comparison to the split (blue bbox) in the two images, according to the observer? Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , farther, front, behind\nB. right, below, farther, front, \nC. left, , closer, front, behind\nD. left, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006419/000.jpg", + "spar_bench/sample_006419/001.jpg", + "spar_bench/sample_006419/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6420, + "data_source": "SPAR-Bench", + "question": "Describe the location of the window sill (red bbox) with respect to the SPLIT (blue bbox) in the given two images, relative to the observer's perspective. Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, farther, front, front\nB. , below, closer, front, behind\nC. right, above, farther, behind, front\nD. left, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006420/000.jpg", + "spar_bench/sample_006420/001.jpg", + "spar_bench/sample_006420/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6421, + "data_source": "SPAR-Bench", + "question": "In the two images, what is the directional relationship of the table lamp (red bbox) relative to the sofa (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, closer, behind, \nB. right, above, farther, front, \nC. right, above, closer, , front\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006421/000.jpg", + "spar_bench/sample_006421/001.jpg", + "spar_bench/sample_006421/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6422, + "data_source": "SPAR-Bench", + "question": "Analyze the two images and determine the directional relationship between the box (red bbox) and the first aid box (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, farther, front, front\nB. right, below, farther, front, \nC. , below, farther, front, behind\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006422/000.jpg", + "spar_bench/sample_006422/001.jpg", + "spar_bench/sample_006422/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6423, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, describe the plant pot (red bbox) with respect to the window (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, below, closer, behind, \nB. left, , closer, front, front\nC. left, below, closer, front, front\nD. left, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006423/000.jpg", + "spar_bench/sample_006423/001.jpg", + "spar_bench/sample_006423/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6424, + "data_source": "SPAR-Bench", + "question": "Analyze the two images and state where the toilet (red bbox) is in relation to the flush button (blue bbox) from the observer's perspective. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , below, , front, front\nB. left, above, farther, front, behind\nC. left, below, farther, front, front\nD. right, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006424/000.jpg", + "spar_bench/sample_006424/001.jpg", + "spar_bench/sample_006424/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6425, + "data_source": "SPAR-Bench", + "question": "Describe the location of the cup (red bbox) with respect to the dishwasher (blue bbox) in the given two images, relative to the observer's perspective. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, farther, behind, front\nB. right, above, farther, front, front\nC. left, , farther, front, front\nD. left, below, closer, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006425/000.jpg", + "spar_bench/sample_006425/001.jpg", + "spar_bench/sample_006425/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6426, + "data_source": "SPAR-Bench", + "question": "In terms of spatial relationships, where is the oven (red bbox) located compared to the kitchen utensil (blue bbox) in the two images? Consider the observer's frame of reference. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , above, closer, front, behind\nB. , above, farther, front, front\nC. right, , farther, front, front\nD. left, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006426/000.jpg", + "spar_bench/sample_006426/001.jpg", + "spar_bench/sample_006426/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6427, + "data_source": "SPAR-Bench", + "question": "Considering the observer's point of view, where is the kitchen cabinet (red bbox) positioned compared to the cabinet (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, above, closer, front, front\nB. right, above, farther, , behind\nC. right, below, closer, front, front\nD. right, , farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006427/000.jpg", + "spar_bench/sample_006427/001.jpg", + "spar_bench/sample_006427/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6428, + "data_source": "SPAR-Bench", + "question": "Where does the pillow (red bbox) lie in relation to the pillow (blue bbox) in the two images from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , closer, behind, behind\nB. left, , closer, front, front\nC. right, , farther, front, front\nD. left, , farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006428/000.jpg", + "spar_bench/sample_006428/001.jpg", + "spar_bench/sample_006428/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6429, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the jacket (red bbox) located relative to the power socket (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , closer, behind, front\nB. right, , closer, behind, behind\nC. left, , farther, behind, behind\nD. left, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006429/000.jpg", + "spar_bench/sample_006429/001.jpg", + "spar_bench/sample_006429/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6430, + "data_source": "SPAR-Bench", + "question": "In the two images, describe the spatial relationship between the chair (red bbox) and the chair (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , closer, front, front\nB. left, , farther, front, behind\nC. left, above, closer, , behind\nD. right, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006430/000.jpg", + "spar_bench/sample_006430/001.jpg", + "spar_bench/sample_006430/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6431, + "data_source": "SPAR-Bench", + "question": "State the position of the closet (red bbox) with respect to the power socket (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, closer, front, behind\nB. right, above, farther, , front\nC. left, below, closer, behind, behind\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006431/000.jpg", + "spar_bench/sample_006431/001.jpg", + "spar_bench/sample_006431/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6432, + "data_source": "SPAR-Bench", + "question": "In the two images, what is the relative position of the reflection (red bbox) to the dishwasher (blue bbox), according to the observer? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, below, farther, front, front\nB. right, above, closer, front, front\nC. right, , closer, front, behind\nD. left, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006432/000.jpg", + "spar_bench/sample_006432/001.jpg", + "spar_bench/sample_006432/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6433, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of the beanbag (red bbox) relative to the box (blue bbox) in the two images, from the observer\u2019s perspective? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , above, farther, front, behind\nB. right, below, closer, , behind\nC. left, , farther, behind, front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006433/000.jpg", + "spar_bench/sample_006433/001.jpg", + "spar_bench/sample_006433/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6434, + "data_source": "SPAR-Bench", + "question": "In the provided two images, where is the chair (red bbox) in comparison to the power socket (blue bbox) as seen by the observer? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, farther, front, front\nB. right, above, closer, front, \nC. right, above, closer, front, front\nD. left, above, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006434/000.jpg", + "spar_bench/sample_006434/001.jpg", + "spar_bench/sample_006434/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6435, + "data_source": "SPAR-Bench", + "question": "Considering the observer's viewpoint, describe the shelf (red bbox) with respect to the chair (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, farther, behind, behind\nB. left, below, closer, front, \nC. left, above, farther, , front\nD. , above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006435/000.jpg", + "spar_bench/sample_006435/001.jpg", + "spar_bench/sample_006435/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6436, + "data_source": "SPAR-Bench", + "question": "In the two images, where does the speaker (red bbox) lie with respect to the blanket (blue bbox) based on the observer's frame of reference? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, farther, front, \nB. left, below, closer, front, front\nC. , below, closer, front, front\nD. left, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006436/000.jpg", + "spar_bench/sample_006436/001.jpg", + "spar_bench/sample_006436/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6437, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of the trash bin (red bbox) with the reflection (blue bbox) in the two images? Answer based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, closer, front, front\nB. right, below, closer, behind, front\nC. right, below, farther, front, behind\nD. right, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006437/000.jpg", + "spar_bench/sample_006437/001.jpg", + "spar_bench/sample_006437/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6438, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, where does the window frame (red bbox) appear relative to the softbox light (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, , behind, behind\nB. right, , farther, behind, behind\nC. left, above, farther, , front\nD. left, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006438/000.jpg", + "spar_bench/sample_006438/001.jpg", + "spar_bench/sample_006438/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6439, + "data_source": "SPAR-Bench", + "question": "Describe the location of the electrical duct (red bbox) with respect to the computer tower (blue bbox) in the given two images, relative to the observer's perspective. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, farther, front, front\nB. left, above, closer, , behind\nC. left, above, farther, behind, front\nD. left, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006439/000.jpg", + "spar_bench/sample_006439/001.jpg", + "spar_bench/sample_006439/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6440, + "data_source": "SPAR-Bench", + "question": "How would you describe the position of the chessboard (red bbox) relative to the sofa (blue bbox) in the two images? Provide the direction relative to the observer. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, below, farther, , front\nB. left, , farther, front, front\nC. right, , closer, front, front\nD. right, below, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006440/000.jpg", + "spar_bench/sample_006440/001.jpg", + "spar_bench/sample_006440/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6441, + "data_source": "SPAR-Bench", + "question": "In the given two images, how does the window (red bbox) compare spatially to the windowframe (blue bbox) from the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , farther, behind, front\nB. left, , closer, behind, front\nC. left, , farther, front, front\nD. left, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006441/000.jpg", + "spar_bench/sample_006441/001.jpg", + "spar_bench/sample_006441/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6442, + "data_source": "SPAR-Bench", + "question": "In terms of spatial relationships, where is the exhaust fan (red bbox) located compared to the table (blue bbox) in the two images? Consider the observer's frame of reference. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , below, farther, behind, front\nB. right, above, farther, behind, front\nC. , below, farther, front, front\nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006442/000.jpg", + "spar_bench/sample_006442/001.jpg", + "spar_bench/sample_006442/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6443, + "data_source": "SPAR-Bench", + "question": "What is the position of the power socket (red bbox) relative to the outlet (blue bbox) in the two images according to the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, farther, front, front\nB. , above, closer, behind, behind\nC. right, above, closer, front, behind\nD. , above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006443/000.jpg", + "spar_bench/sample_006443/001.jpg", + "spar_bench/sample_006443/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6444, + "data_source": "SPAR-Bench", + "question": "From the observer's frame of reference, how is the box (red bbox) spatially situated in relation to the box (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. , above, farther, front, front\nB. left, below, farther, front, behind\nC. right, above, farther, front, front\nD. , above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006444/000.jpg", + "spar_bench/sample_006444/001.jpg", + "spar_bench/sample_006444/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6445, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how is the toothbrush holder (red bbox) positioned in comparison to the faucet (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, , behind, behind\nB. left, above, farther, behind, front\nC. left, above, farther, , behind\nD. left, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006445/000.jpg", + "spar_bench/sample_006445/001.jpg", + "spar_bench/sample_006445/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6446, + "data_source": "SPAR-Bench", + "question": "What is the position of the helmet (red bbox) in comparison to the bottle (blue bbox) in the two images? Provide the answer as seen by the observer. Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, below, closer, behind, front\nB. left, below, closer, front, behind\nC. right, below, closer, front, front\nD. right, above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006446/000.jpg", + "spar_bench/sample_006446/001.jpg", + "spar_bench/sample_006446/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6447, + "data_source": "SPAR-Bench", + "question": "Using the observer's frame of reference, describe how the office chair (red bbox) is placed concerning the monitor (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , farther, behind, behind\nB. right, , farther, front, behind\nC. , below, farther, front, behind\nD. left, below, , behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006447/000.jpg", + "spar_bench/sample_006447/001.jpg", + "spar_bench/sample_006447/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6448, + "data_source": "SPAR-Bench", + "question": "Describe the relative location of the electric box (red bbox) with respect to the bottle crate (blue bbox) in the two images, as seen by the observer. Calculate or judge based on the 3D center points of these objects. Setting the first image as the main view ensures it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, closer, front, front\nB. right, above, closer, front, front\nC. , above, farther, behind, front\nD. left, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006448/000.jpg", + "spar_bench/sample_006448/001.jpg", + "spar_bench/sample_006448/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6449, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the counter (red bbox) be found in relation to the toilet paper holder (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , farther, behind, behind\nB. left, , closer, , front\nC. left, above, closer, behind, behind\nD. left, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006449/000.jpg", + "spar_bench/sample_006449/001.jpg", + "spar_bench/sample_006449/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6450, + "data_source": "SPAR-Bench", + "question": "In the given two images, what is the spatial alignment of the book (red bbox) relative to the cabinet (blue bbox) as perceived by the observer? Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, , front, front\nB. right, , closer, front, front\nC. right, above, , front, behind\nD. right, , , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006450/000.jpg", + "spar_bench/sample_006450/001.jpg", + "spar_bench/sample_006450/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6451, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the computer tower (red bbox) be found compared to the computer tower (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , farther, front, behind\nB. left, above, farther, , front\nC. right, , farther, front, front\nD. left, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006451/000.jpg", + "spar_bench/sample_006451/001.jpg", + "spar_bench/sample_006451/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6452, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, what is the spatial position of the bench (red bbox) relative to the sofa (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , below, farther, front, front\nB. left, , closer, front, front\nC. right, , farther, front, front\nD. left, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006452/000.jpg", + "spar_bench/sample_006452/001.jpg", + "spar_bench/sample_006452/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6453, + "data_source": "SPAR-Bench", + "question": "Please describe how the box (red bbox) is oriented relative to the trash bin (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, farther, front, front\nB. , below, closer, front, front\nC. left, above, farther, front, front\nD. left, above, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006453/000.jpg", + "spar_bench/sample_006453/001.jpg", + "spar_bench/sample_006453/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6454, + "data_source": "SPAR-Bench", + "question": "Describe the position of the plant pot (red bbox) concerning the yoga mat (blue bbox) in the two images, from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, closer, front, behind\nB. right, above, farther, front, front\nC. left, , farther, front, front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006454/000.jpg", + "spar_bench/sample_006454/001.jpg", + "spar_bench/sample_006454/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6455, + "data_source": "SPAR-Bench", + "question": "Describe the positioning of the utensils (red bbox) with respect to the kitchen drawer (blue bbox) in the two images, based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. As the observer's perspective, the first image is defined as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, farther, front, front\nB. right, above, , front, front\nC. right, above, closer, front, \nD. left, above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006455/000.jpg", + "spar_bench/sample_006455/001.jpg", + "spar_bench/sample_006455/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6456, + "data_source": "SPAR-Bench", + "question": "Describe where the bench (red bbox) lies in relation to the cabinet (blue bbox) in the two images, from the observer's point of view. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , farther, front, front\nB. left, , farther, front, front\nC. right, below, closer, , front\nD. left, below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006456/000.jpg", + "spar_bench/sample_006456/001.jpg", + "spar_bench/sample_006456/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6457, + "data_source": "SPAR-Bench", + "question": "What is the position of the bottle (red bbox) in comparison to the toilet seat (blue bbox) in the two images? Provide the answer as seen by the observer. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, closer, front, front\nB. left, above, farther, front, front\nC. left, above, farther, front, \nD. right, above, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006457/000.jpg", + "spar_bench/sample_006457/001.jpg", + "spar_bench/sample_006457/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6458, + "data_source": "SPAR-Bench", + "question": "Describe the location of the book (red bbox) with respect to the book (blue bbox) in the given two images, relative to the observer's perspective. Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, below, closer, front, behind\nB. right, , closer, front, front\nC. right, above, closer, , behind\nD. right, below, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006458/000.jpg", + "spar_bench/sample_006458/001.jpg", + "spar_bench/sample_006458/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6459, + "data_source": "SPAR-Bench", + "question": "What is the position of the table (red bbox) in comparison to the window sill (blue bbox) in the two images? Provide the answer as seen by the observer. Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, , farther, front, front\nB. left, above, farther, , behind\nC. left, below, closer, front, front\nD. , below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006459/000.jpg", + "spar_bench/sample_006459/001.jpg", + "spar_bench/sample_006459/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6460, + "data_source": "SPAR-Bench", + "question": "How does the table (red bbox) align spatially with the whiteboard (blue bbox) in the two images? Respond based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, closer, front, front\nB. right, , farther, front, front\nC. right, below, closer, behind, front\nD. , below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006460/000.jpg", + "spar_bench/sample_006460/001.jpg", + "spar_bench/sample_006460/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6461, + "data_source": "SPAR-Bench", + "question": "Where, relative to the observer's viewpoint, is the SPLIT (red bbox) located in relation to the machine (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, closer, , front\nB. right, below, , front, behind\nC. left, below, closer, behind, \nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006461/000.jpg", + "spar_bench/sample_006461/001.jpg", + "spar_bench/sample_006461/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6462, + "data_source": "SPAR-Bench", + "question": "Describe how the spotlight (red bbox) is situated in relation to the computer tower (blue bbox) in the two images, considering the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, , front, behind\nB. right, below, closer, , behind\nC. right, , closer, front, behind\nD. left, above, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006462/000.jpg", + "spar_bench/sample_006462/001.jpg", + "spar_bench/sample_006462/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6463, + "data_source": "SPAR-Bench", + "question": "What is the spatial orientation of the chair (red bbox) compared to the table (blue bbox) in the two images, relative to the observer's view? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , below, closer, behind, front\nB. right, , farther, front, front\nC. left, above, farther, , behind\nD. right, below, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006463/000.jpg", + "spar_bench/sample_006463/001.jpg", + "spar_bench/sample_006463/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6464, + "data_source": "SPAR-Bench", + "question": "In the two images, how does the table (red bbox) appear spatially in relation to the mug (blue bbox), as observed by the viewer? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, closer, front, front\nB. left, below, closer, behind, behind\nC. right, above, farther, behind, \nD. left, , farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006464/000.jpg", + "spar_bench/sample_006464/001.jpg", + "spar_bench/sample_006464/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6465, + "data_source": "SPAR-Bench", + "question": "Where is the whiteboard (red bbox) found spatially in comparison to the rolling chair (blue bbox) in the two images, according to the observer? Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, farther, front, behind\nB. right, above, closer, , front\nC. right, , farther, front, front\nD. left, below, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006465/000.jpg", + "spar_bench/sample_006465/001.jpg", + "spar_bench/sample_006465/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6466, + "data_source": "SPAR-Bench", + "question": "Describe the toilet paper (red bbox) compared to the power socket (blue bbox) in terms of spatial location, relative to the observer's view. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, , front, front\nB. right, below, farther, front, front\nC. right, below, , front, front\nD. right, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006466/000.jpg", + "spar_bench/sample_006466/001.jpg", + "spar_bench/sample_006466/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6467, + "data_source": "SPAR-Bench", + "question": "Describe the location of the bed (red bbox) with respect to the toaster (blue bbox) in the given two images, relative to the observer's perspective. Calculate or judge based on the 3D center points of these objects. We establish the main perspective by aligning the first image with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, closer, , front\nB. right, above, closer, front, \nC. right, , farther, front, \nD. right, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006467/000.jpg", + "spar_bench/sample_006467/001.jpg", + "spar_bench/sample_006467/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6468, + "data_source": "SPAR-Bench", + "question": "From the observer's viewpoint, how is the window (red bbox) positioned in relation to the phone (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, farther, behind, behind\nB. , above, farther, front, front\nC. right, , farther, behind, front\nD. left, above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006468/000.jpg", + "spar_bench/sample_006468/001.jpg", + "spar_bench/sample_006468/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6469, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the serving trolley (red bbox) situated in comparison to the dishwasher (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , closer, front, front\nB. left, below, , behind, front\nC. left, , farther, front, behind\nD. right, , , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006469/000.jpg", + "spar_bench/sample_006469/001.jpg", + "spar_bench/sample_006469/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6470, + "data_source": "SPAR-Bench", + "question": "Based on the observer's viewpoint, where is the plant (red bbox) in relation to the monitor (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, below, closer, front, front\nB. right, above, farther, front, front\nC. right, above, farther, , behind\nD. left, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006470/000.jpg", + "spar_bench/sample_006470/001.jpg", + "spar_bench/sample_006470/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6471, + "data_source": "SPAR-Bench", + "question": "Using the two images, specify the position of the wooden plank (red bbox) with respect to the structure (blue bbox) from the viewpoint of the observer. Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, , closer, behind, front\nB. left, above, farther, front, \nC. left, , closer, front, front\nD. left, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006471/000.jpg", + "spar_bench/sample_006471/001.jpg", + "spar_bench/sample_006471/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6472, + "data_source": "SPAR-Bench", + "question": "In the two images, describe the spatial positioning of the light switch (red bbox) relative to the light switch (blue bbox) from the observer's viewpoint. Calculate or judge based on the 3D center points of these objects. The observer's perspective is captured by setting the first image as the primary view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, closer, front, front\nB. left, below, farther, behind, front\nC. right, , closer, front, behind\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006472/000.jpg", + "spar_bench/sample_006472/001.jpg", + "spar_bench/sample_006472/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6473, + "data_source": "SPAR-Bench", + "question": "Using the observer's frame of reference, describe how the whiteboard (red bbox) is placed concerning the storage cabinet (blue bbox) in the two images. Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, closer, , behind\nB. left, , closer, behind, front\nC. left, , closer, front, front\nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006473/000.jpg", + "spar_bench/sample_006473/001.jpg", + "spar_bench/sample_006473/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6474, + "data_source": "SPAR-Bench", + "question": "What is the position of the plant pot (red bbox) relative to the blanket (blue bbox) in the two images according to the observer's perspective? Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, above, closer, behind, behind\nB. right, above, closer, front, front\nC. left, , closer, front, front\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006474/000.jpg", + "spar_bench/sample_006474/001.jpg", + "spar_bench/sample_006474/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6475, + "data_source": "SPAR-Bench", + "question": "Based on the observer's point of view, how is the monitor (red bbox) oriented in relation to the cabinet (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , above, closer, front, front\nB. right, above, , front, behind\nC. , above, farther, behind, front\nD. right, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006475/000.jpg", + "spar_bench/sample_006475/001.jpg", + "spar_bench/sample_006475/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6476, + "data_source": "SPAR-Bench", + "question": "Identify the relative spatial arrangement of the whiteboard (red bbox) and the plate (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, closer, front, front\nB. left, below, closer, , front\nC. right, below, closer, front, \nD. right, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006476/000.jpg", + "spar_bench/sample_006476/001.jpg", + "spar_bench/sample_006476/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6477, + "data_source": "SPAR-Bench", + "question": "How is the shoes (red bbox) spatially located in relation to the clothes (blue bbox) in the two images, as perceived by the observer? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, closer, , front\nB. left, below, closer, behind, front\nC. right, below, closer, front, front\nD. right, above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006477/000.jpg", + "spar_bench/sample_006477/001.jpg", + "spar_bench/sample_006477/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6478, + "data_source": "SPAR-Bench", + "question": "Where is the arm chair (red bbox) located compared to the arm chair (blue bbox) as seen from the observer's perspective in the two images? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, closer, front, front\nB. right, , closer, front, behind\nC. right, , farther, front, front\nD. left, , closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006478/000.jpg", + "spar_bench/sample_006478/001.jpg", + "spar_bench/sample_006478/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6479, + "data_source": "SPAR-Bench", + "question": "Considering the observer's point of view, where is the cup (red bbox) positioned compared to the tap (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, closer, front, front\nB. left, below, closer, front, \nC. , below, , front, front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006479/000.jpg", + "spar_bench/sample_006479/001.jpg", + "spar_bench/sample_006479/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6480, + "data_source": "SPAR-Bench", + "question": "Where is the sink pipe (red bbox) positioned in the two images compared to the kitchen drawer (blue bbox)? State the direction from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , farther, front, front\nB. right, , closer, front, front\nC. left, below, farther, behind, front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006480/000.jpg", + "spar_bench/sample_006480/001.jpg", + "spar_bench/sample_006480/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6481, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the copy machine (red bbox) be found in relation to the bottle crate (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, below, , front, front\nB. right, , closer, front, front\nC. right, below, closer, , behind\nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006481/000.jpg", + "spar_bench/sample_006481/001.jpg", + "spar_bench/sample_006481/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6482, + "data_source": "SPAR-Bench", + "question": "Examine the two images and determine the relative position of the shelf (red bbox) to the microwave (blue bbox) as observed by the viewer. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, closer, front, \nB. right, below, , front, front\nC. right, below, closer, front, front\nD. left, above, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006482/000.jpg", + "spar_bench/sample_006482/001.jpg", + "spar_bench/sample_006482/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6483, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how is the bed (red bbox) positioned in comparison to the power socket (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. To convey the observer's perspective, the first image is designated as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, closer, front, front\nB. left, above, farther, , behind\nC. right, , closer, front, front\nD. right, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006483/000.jpg", + "spar_bench/sample_006483/001.jpg", + "spar_bench/sample_006483/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6484, + "data_source": "SPAR-Bench", + "question": "Where is the bathroom cabinet (red bbox) situated in the two images relative to the tap (blue bbox) from the observer\u2019s viewpoint? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, above, , front, front\nB. right, above, , behind, front\nC. left, above, farther, , front\nD. left, above, farther, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006484/000.jpg", + "spar_bench/sample_006484/001.jpg", + "spar_bench/sample_006484/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6485, + "data_source": "SPAR-Bench", + "question": "In the two images, where is the office chair (red bbox) located compared to the office chair (blue bbox) based on the observer's viewpoint? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , closer, front, front\nB. left, below, , front, front\nC. left, , closer, behind, front\nD. left, below, closer, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006485/000.jpg", + "spar_bench/sample_006485/001.jpg", + "spar_bench/sample_006485/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6486, + "data_source": "SPAR-Bench", + "question": "In the two images, describe the spatial relationship between the plant pot (red bbox) and the plant (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects. The first image is positioned to serve as the main viewpoint for the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, , behind, front\nB. left, below, closer, front, front\nC. left, below, , front, front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006486/000.jpg", + "spar_bench/sample_006486/001.jpg", + "spar_bench/sample_006486/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6487, + "data_source": "SPAR-Bench", + "question": "Describe the positioning of the frame (red bbox) with respect to the windowsill (blue bbox) in the two images, based on the observer\u2019s viewpoint. Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, below, farther, front, front\nB. right, above, , front, front\nC. left, above, closer, front, front\nD. left, , farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006487/000.jpg", + "spar_bench/sample_006487/001.jpg", + "spar_bench/sample_006487/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6488, + "data_source": "SPAR-Bench", + "question": "How does the backpack (red bbox) align spatially with the shelf (blue bbox) in the two images? Respond based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image is framed as the primary perspective, reflecting the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, , behind, front\nB. left, below, farther, behind, \nC. right, , closer, front, front\nD. right, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006488/000.jpg", + "spar_bench/sample_006488/001.jpg", + "spar_bench/sample_006488/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6489, + "data_source": "SPAR-Bench", + "question": "Analyze the two images and determine the directional relationship between the box (red bbox) and the monitor (blue bbox) as seen by the observer. Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, below, , front, behind\nB. left, , farther, front, behind\nC. left, below, farther, front, front\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006489/000.jpg", + "spar_bench/sample_006489/001.jpg", + "spar_bench/sample_006489/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6490, + "data_source": "SPAR-Bench", + "question": "How does the chair (red bbox) align spatially with the chair (blue bbox) in the two images? Respond based on the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, , front, front\nB. left, , closer, behind, behind\nC. left, above, farther, front, front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006490/000.jpg", + "spar_bench/sample_006490/001.jpg", + "spar_bench/sample_006490/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6491, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the computer tower (red bbox) situated in comparison to the window (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The main perspective, corresponding to the observer's view, is established by selecting the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, closer, front, front\nB. right, , closer, front, behind\nC. right, , closer, front, front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006491/000.jpg", + "spar_bench/sample_006491/001.jpg", + "spar_bench/sample_006491/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6492, + "data_source": "SPAR-Bench", + "question": "Where does the toilet brush (red bbox) appear to be located in relation to the power socket (blue bbox) in the given two images, relative to the observer? Calculate or judge based on the 3D center points of these objects. We align the first image with the observer's perspective, making it the main viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, , front, behind\nB. left, , farther, behind, behind\nC. left, above, closer, , front\nD. left, below, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006492/000.jpg", + "spar_bench/sample_006492/001.jpg", + "spar_bench/sample_006492/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6493, + "data_source": "SPAR-Bench", + "question": "Where, relative to the observer's viewpoint, is the paper (red bbox) located in relation to the sofa (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, closer, , front\nB. left, , closer, behind, behind\nC. left, below, closer, behind, \nD. left, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006493/000.jpg", + "spar_bench/sample_006493/001.jpg", + "spar_bench/sample_006493/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6494, + "data_source": "SPAR-Bench", + "question": "State the position of the chair (red bbox) with respect to the whiteboard (blue bbox) in the two images from the observer's perspective. Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, farther, front, front\nB. left, below, closer, , behind\nC. left, below, , front, behind\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006494/000.jpg", + "spar_bench/sample_006494/001.jpg", + "spar_bench/sample_006494/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6495, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is the bottle (red bbox) located relative to the dishwasher (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image has been selected to portray the primary perspective of the observer.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, , front, behind\nB. left, below, , behind, front\nC. right, above, , behind, front\nD. left, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006495/000.jpg", + "spar_bench/sample_006495/001.jpg", + "spar_bench/sample_006495/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6496, + "data_source": "SPAR-Bench", + "question": "In the two images, how is the pillar (red bbox) positioned in relation to the basket (blue bbox), from the observer's view? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, closer, behind, \nB. right, above, closer, front, \nC. right, , closer, behind, front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006496/000.jpg", + "spar_bench/sample_006496/001.jpg", + "spar_bench/sample_006496/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6497, + "data_source": "SPAR-Bench", + "question": "How does the window (red bbox) relate spatially to the chair (blue bbox) in the two images, as seen by the observer? Calculate or judge based on the 3D center points of these objects. We use the first image to reflect the main perspective, which aligns with the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, closer, behind, \nB. right, , farther, front, front\nC. left, , farther, behind, behind\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006497/000.jpg", + "spar_bench/sample_006497/001.jpg", + "spar_bench/sample_006497/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6498, + "data_source": "SPAR-Bench", + "question": "Describe the relative location of the stools (red bbox) with respect to the box (blue bbox) in the two images, as seen by the observer. Calculate or judge based on the 3D center points of these objects. We make the first image the main perspective, representing the observer's viewpoint.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, farther, front, front\nB. left, , closer, front, front\nC. left, above, , front, front\nD. left, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006498/000.jpg", + "spar_bench/sample_006498/001.jpg", + "spar_bench/sample_006498/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6499, + "data_source": "SPAR-Bench", + "question": "Relative to the observer, where can the tote bag (red bbox) be found compared to the cabinet (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image functions as the main perspective, showcasing what the observer perceives.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , above, farther, behind, front\nB. left, above, farther, front, front\nC. right, above, farther, front, front\nD. left, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006499/000.jpg", + "spar_bench/sample_006499/001.jpg", + "spar_bench/sample_006499/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6500, + "data_source": "SPAR-Bench", + "question": "As seen by the observer, how is the box (red bbox) positioned compared to the window sill (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The first image becomes the primary perspective, correlating with the observer's view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, , behind, behind\nB. right, below, closer, behind, behind\nC. right, below, farther, behind, behind\nD. right, below, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006500/000.jpg", + "spar_bench/sample_006500/001.jpg", + "spar_bench/sample_006500/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6501, + "data_source": "SPAR-Bench", + "question": "Where is the cardboard box (red bbox) located compared to the cardboard box (blue bbox) as seen from the observer's perspective in the two images? Calculate or judge based on the 3D center points of these objects. To illustrate the observer's perspective, we designate the first image as the main focus.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, closer, front, front\nB. right, , farther, front, front\nC. right, above, closer, , front\nD. right, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006501/000.jpg", + "spar_bench/sample_006501/001.jpg", + "spar_bench/sample_006501/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6502, + "data_source": "SPAR-Bench", + "question": "Where is the pillow (red bbox) located compared to the plant pot (blue bbox) as seen from the observer's perspective in the two images? Calculate or judge based on the 3D center points of these objects. The first image is designated to depict the main perspective, aligning with what the observer sees.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. , below, farther, behind, behind\nB. left, below, closer, front, \nC. left, below, closer, behind, front\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006502/000.jpg", + "spar_bench/sample_006502/001.jpg", + "spar_bench/sample_006502/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6503, + "data_source": "SPAR-Bench", + "question": "From the viewpoint of the observer, what is the spatial position of the air conditioner (red bbox) relative to the monitor (blue bbox) in the two images? Calculate or judge based on the 3D center points of these objects. The primary viewpoint, representing the observer\u2019s perspective, is attributed to the first image.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, farther, front, \nB. right, below, closer, front, behind\nC. right, above, closer, behind, \nD. left, below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006503/000.jpg", + "spar_bench/sample_006503/001.jpg", + "spar_bench/sample_006503/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6504, + "data_source": "SPAR-Bench", + "question": "Describe the relative location of the bathroom cabinet (red bbox) with respect to the window (blue bbox) in the two images, as seen by the observer. Calculate or judge based on the 3D center points of these objects. By setting the first image as primary, we ensure it reflects the observer's perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , closer, behind, behind\nB. right, below, closer, front, front\nC. right, below, farther, front, front\nD. left, below, closer, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006504/000.jpg", + "spar_bench/sample_006504/001.jpg", + "spar_bench/sample_006504/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6505, + "data_source": "SPAR-Bench", + "question": "What is the spatial orientation of the whiteboard (red bbox) compared to the chair (blue bbox) in the two images, relative to the observer's view? Calculate or judge based on the 3D center points of these objects. The first image is chosen to represent the observer's perspective as the main view.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, , farther, front, front\nB. right, below, farther, behind, \nC. left, , farther, behind, behind\nD. left, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006505/000.jpg", + "spar_bench/sample_006505/001.jpg", + "spar_bench/sample_006505/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6506, + "data_source": "SPAR-Bench", + "question": "Where is the smoke detector (red bbox) found relative to the table lamp (blue bbox) in the two images, as seen by the observer? Calculate or judge based on the 3D center points of these objects. The observer\u2019s viewpoint is mirrored by establishing the first image as the primary perspective.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, , front, front\nB. right, above, closer, front, front\nC. right, , closer, behind, front\nD. right, above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006506/000.jpg", + "spar_bench/sample_006506/001.jpg", + "spar_bench/sample_006506/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "obj_spatial_relation_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6507, + "data_source": "SPAR-Bench", + "question": "Describe where microwave (red bbox) is located from the observer\u2019s point of view before and after the observer moves to the 3D center of range hood (green bbox) and faces cabinet (blue bbox). Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, , front\nB. right, below, front\nC. right, above, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006507/000.jpg", + "spar_bench/sample_006507/001.jpg", + "spar_bench/sample_006507/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6508, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of toilet paper (red bbox) to the observer before and after the observer moves to the 3D center of toilet paper dispenser (green bbox) and faces the center of sink (blue bbox). Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, \nB. right, , behind\nC. , below, \nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006508/000.jpg", + "spar_bench/sample_006508/001.jpg", + "spar_bench/sample_006508/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6509, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is armchair (red bbox)? How does the position of armchair change once the observer moves to the center of armchair (green bbox) and faces the 3D center of armchair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, front\nB. left, below, \nC. right, above, \nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006509/000.jpg", + "spar_bench/sample_006509/001.jpg", + "spar_bench/sample_006509/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6510, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of dresser (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of ladder (green bbox) and faces instrument case (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, behind\nB. left, below, front\nC. left, below, \nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006510/000.jpg", + "spar_bench/sample_006510/001.jpg", + "spar_bench/sample_006510/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6511, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to stoves 3D center (green bbox) and faces kitchen cabinets 3D center (blue bbox), what is the relationship between the observer and kitchen cabinet (red bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , behind\nB. right, below, \nC. right, , front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006511/000.jpg", + "spar_bench/sample_006511/001.jpg", + "spar_bench/sample_006511/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6512, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of books (green bbox) and facing books (blue bbox), where is books (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, above, behind\nB. left, , behind\nC. right, below, \nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006512/000.jpg", + "spar_bench/sample_006512/001.jpg", + "spar_bench/sample_006512/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6513, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of range hood (green bbox) and orientation toward open kitchen cabinet (blue bbox) affect the positioning of microwave (red bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, front\nB. left, below, behind\nC. , below, behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006513/000.jpg", + "spar_bench/sample_006513/001.jpg", + "spar_bench/sample_006513/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6514, + "data_source": "SPAR-Bench", + "question": "What change occurs in the spatial relationship between the observer and chair (red bbox) when the observer shifts from their original position to the 3D center of chair (green bbox) and faces table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. , below, front\nB. right, , front\nC. left, above, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006514/000.jpg", + "spar_bench/sample_006514/001.jpg", + "spar_bench/sample_006514/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6515, + "data_source": "SPAR-Bench", + "question": "How does the position of ping pong table (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of tv (green bbox) and faces backpack (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , below, front\nB. right, below, \nC. left, below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006515/000.jpg", + "spar_bench/sample_006515/001.jpg", + "spar_bench/sample_006515/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6516, + "data_source": "SPAR-Bench", + "question": "Describe where bed (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to desks 3D center (green bbox) and faces pillows 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, front\nB. right, above, \nC. left, above, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006516/000.jpg", + "spar_bench/sample_006516/001.jpg", + "spar_bench/sample_006516/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6517, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is chair (red bbox) relative to the observer? After the observer moves to the center of copier (green bbox) and faces bucket (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, front\nB. left, , behind\nC. right, below, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006517/000.jpg", + "spar_bench/sample_006517/001.jpg", + "spar_bench/sample_006517/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6518, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of chair (red bbox) relative to the observer change once the observer moves to the center of sink (green bbox) and faces the center of shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, below, behind\nB. right, below, front\nC. left, , front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006518/000.jpg", + "spar_bench/sample_006518/001.jpg", + "spar_bench/sample_006518/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6519, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of chair (green bbox) and faces shelf (blue bbox), where is monitor (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, front\nB. right, above, front\nC. right, below, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006519/000.jpg", + "spar_bench/sample_006519/001.jpg", + "spar_bench/sample_006519/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6520, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of carton (green bbox) and orientation toward refrigerator (blue bbox) affect the spatial relationship between backpack (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, front\nB. right, , front\nC. right, below, \nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006520/000.jpg", + "spar_bench/sample_006520/001.jpg", + "spar_bench/sample_006520/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6521, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of trash can (green bbox) and facing bucket (blue bbox), where does copier (red bbox) lie in relation to the observer? After moving, where is copier now? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , front\nB. , above, front\nC. , below, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006521/000.jpg", + "spar_bench/sample_006521/001.jpg", + "spar_bench/sample_006521/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6522, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is chair (red bbox) relative to the observer? After the observer moves to the center of stove (green bbox) and faces kitchen counter (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, front\nB. right, above, behind\nC. right, above, \nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006522/000.jpg", + "spar_bench/sample_006522/001.jpg", + "spar_bench/sample_006522/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6523, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of table (green bbox) and orientation toward seat (blue bbox) affect the spatial relationship between chair (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, behind\nB. right, below, front\nC. right, , front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006523/000.jpg", + "spar_bench/sample_006523/001.jpg", + "spar_bench/sample_006523/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6524, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to dressers 3D center (green bbox) and faces chairs 3D center (blue bbox), what is the relationship between the observer and case of water bottles (red bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , below, behind\nB. left, below, front\nC. , above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006524/000.jpg", + "spar_bench/sample_006524/001.jpg", + "spar_bench/sample_006524/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6525, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of table (green bbox) and facing whiteboard (blue bbox), where is bench (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, behind\nB. , below, \nC. left, below, \nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006525/000.jpg", + "spar_bench/sample_006525/001.jpg", + "spar_bench/sample_006525/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6526, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between shoes (red bbox) and the observer? If the observer moves to the 3D center of shoes (green bbox) and faces the 3D center of shoes (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, \nB. right, above, behind\nC. right, below, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006526/000.jpg", + "spar_bench/sample_006526/001.jpg", + "spar_bench/sample_006526/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6527, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of bed (green bbox) and faces chair (blue bbox), where is shelf (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , behind\nB. right, below, \nC. right, above, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006527/000.jpg", + "spar_bench/sample_006527/001.jpg", + "spar_bench/sample_006527/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6528, + "data_source": "SPAR-Bench", + "question": "Describe where shoes (red bbox) is located from the observer\u2019s point of view before and after the observer moves to the 3D center of clothes hanger (green bbox) and faces shoe (blue bbox). Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, behind\nB. left, below, front\nC. , above, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006528/000.jpg", + "spar_bench/sample_006528/001.jpg", + "spar_bench/sample_006528/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6529, + "data_source": "SPAR-Bench", + "question": "What happens to the position of chair (red bbox) in relation to the observer after they move to the 3D center of kitchen counter (green bbox) and face the center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, front\nB. right, , behind\nC. right, below, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006529/000.jpg", + "spar_bench/sample_006529/001.jpg", + "spar_bench/sample_006529/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6530, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is armchair (red bbox)? How does this relationship shift once the observer moves to trash can\u2019s 3D center (green bbox) and faces armchair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , below, front\nB. left, above, behind\nC. right, below, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006530/000.jpg", + "spar_bench/sample_006530/001.jpg", + "spar_bench/sample_006530/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6531, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of chair (green bbox) and orientation toward shelf (blue bbox) affect the positioning of backpack (red bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, front\nB. right, , front\nC. , above, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006531/000.jpg", + "spar_bench/sample_006531/001.jpg", + "spar_bench/sample_006531/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6532, + "data_source": "SPAR-Bench", + "question": "What is the position of scale (red bbox) from the observer\u2019s viewpoint before and after the observer moves to the 3D center of bathtub (green bbox) and faces rail (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, front\nB. right, below, front\nC. right, above, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006532/000.jpg", + "spar_bench/sample_006532/001.jpg", + "spar_bench/sample_006532/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6533, + "data_source": "SPAR-Bench", + "question": "What change occurs in the spatial relationship between the observer and radiator (red bbox) when the observer shifts from their original position to the 3D center of toilet (green bbox) and faces toilet paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , front\nB. left, , behind\nC. , above, behind\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006533/000.jpg", + "spar_bench/sample_006533/001.jpg", + "spar_bench/sample_006533/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6534, + "data_source": "SPAR-Bench", + "question": "Before moving to the 3D center of box (green bbox) and facing backpack (blue bbox), where does cabinet (red bbox) lie in relation to the observer? What about after the movement? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, \nB. right, below, \nC. left, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006534/000.jpg", + "spar_bench/sample_006534/001.jpg", + "spar_bench/sample_006534/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6535, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of couch (green bbox) and faces stair rail (blue bbox), where is table (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, behind\nB. left, above, front\nC. right, above, behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006535/000.jpg", + "spar_bench/sample_006535/001.jpg", + "spar_bench/sample_006535/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6536, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of couch (green bbox) and facing pillow (blue bbox), where is end table (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, front\nB. right, , behind\nC. left, , behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006536/000.jpg", + "spar_bench/sample_006536/001.jpg", + "spar_bench/sample_006536/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6537, + "data_source": "SPAR-Bench", + "question": "How does the relative position of kitchen cabinet (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of microwave (green bbox) and faces refrigerator (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, front\nB. , below, front\nC. left, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006537/000.jpg", + "spar_bench/sample_006537/001.jpg", + "spar_bench/sample_006537/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6538, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to mirrors 3D center (green bbox) and faces recycling bins 3D center (blue bbox), what is the relationship between the observer and pillow (red bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, behind\nB. , below, front\nC. left, below, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006538/000.jpg", + "spar_bench/sample_006538/001.jpg", + "spar_bench/sample_006538/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6539, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between office chair (red bbox) and the observer change when the observer moves to the center of whiteboard (green bbox) and faces file cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. , below, front\nB. right, , behind\nC. left, below, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006539/000.jpg", + "spar_bench/sample_006539/001.jpg", + "spar_bench/sample_006539/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6540, + "data_source": "SPAR-Bench", + "question": "How does the positional relationship of table (red bbox) to the observer evolve once the observer shifts to the 3D center of window (green bbox) and faces armchair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , front\nB. right, below, behind\nC. right, below, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006540/000.jpg", + "spar_bench/sample_006540/001.jpg", + "spar_bench/sample_006540/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6541, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of table (green bbox) and facing chair (blue bbox), where is trash can (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. , below, front\nB. right, below, front\nC. left, , behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006541/000.jpg", + "spar_bench/sample_006541/001.jpg", + "spar_bench/sample_006541/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6542, + "data_source": "SPAR-Bench", + "question": "Describe where desk (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to pillows 3D center (green bbox) and faces telephones 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , front\nB. , above, behind\nC. , above, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006542/000.jpg", + "spar_bench/sample_006542/001.jpg", + "spar_bench/sample_006542/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6543, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between nightstand (red bbox) and the observer? If the observer moves to the 3D center of chair (green bbox) and faces the 3D center of lamp (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , behind\nB. right, above, front\nC. left, above, \nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006543/000.jpg", + "spar_bench/sample_006543/001.jpg", + "spar_bench/sample_006543/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6544, + "data_source": "SPAR-Bench", + "question": "Where is chair (red bbox) in relation to the observer before and after the observer moves to chair\u2019s 3D center (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, , front\nB. , above, front\nC. left, , behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006544/000.jpg", + "spar_bench/sample_006544/001.jpg", + "spar_bench/sample_006544/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6545, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between chair (red bbox) and the observer? If the observer moves to the 3D center of board (green bbox) and faces the 3D center of office chair (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, front\nB. left, above, front\nC. , below, behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006545/000.jpg", + "spar_bench/sample_006545/001.jpg", + "spar_bench/sample_006545/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6546, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of clothes (green bbox) and faces clothes dryer (blue bbox), where is box (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, front\nB. right, below, front\nC. right, , behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006546/000.jpg", + "spar_bench/sample_006546/001.jpg", + "spar_bench/sample_006546/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6547, + "data_source": "SPAR-Bench", + "question": "How does the relative position of stool (red bbox) to the observer change when the observer moves to the center of piano bench (green bbox) and faces the 3D center of piano (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, front\nB. left, , front\nC. , above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006547/000.jpg", + "spar_bench/sample_006547/001.jpg", + "spar_bench/sample_006547/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6548, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship of shelf (red bbox) relative to the observer\u2019s initial position? How does this relationship change once the observer shifts to the 3D center of couch (green bbox) and faces the 3D center of cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, behind\nB. right, above, behind\nC. right, , behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006548/000.jpg", + "spar_bench/sample_006548/001.jpg", + "spar_bench/sample_006548/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6549, + "data_source": "SPAR-Bench", + "question": "How does the relative position of window (red bbox) to the observer shift when the observer moves to the 3D center of chair (green bbox) and faces the 3D center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , below, front\nB. right, above, front\nC. left, , behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006549/000.jpg", + "spar_bench/sample_006549/001.jpg", + "spar_bench/sample_006549/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6550, + "data_source": "SPAR-Bench", + "question": "How does the relative position of chair (red bbox) to the observer change after the observer shifts to the 3D center of table (green bbox) and faces the 3D center of table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, front\nB. , above, front\nC. right, , behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006550/000.jpg", + "spar_bench/sample_006550/001.jpg", + "spar_bench/sample_006550/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6551, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of broom (red bbox) relative to the observer change once the observer moves to the center of soap dish (green bbox) and faces the center of box (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , below, front\nB. , below, behind\nC. left, above, \nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006551/000.jpg", + "spar_bench/sample_006551/001.jpg", + "spar_bench/sample_006551/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6552, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is box (red bbox)? After the observer moves to the center of box (green bbox) and faces cabinet (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, front\nB. right, below, behind\nC. left, below, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006552/000.jpg", + "spar_bench/sample_006552/001.jpg", + "spar_bench/sample_006552/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6553, + "data_source": "SPAR-Bench", + "question": "Where does table (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to chairs 3D center (green bbox) and faces chairs 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, \nB. left, , front\nC. right, , behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006553/000.jpg", + "spar_bench/sample_006553/001.jpg", + "spar_bench/sample_006553/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6554, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between lamp (red bbox) and the observer? If the observer moves to the 3D center of desk (green bbox) and faces the 3D center of pillow (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, \nB. right, , behind\nC. , above, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006554/000.jpg", + "spar_bench/sample_006554/001.jpg", + "spar_bench/sample_006554/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6555, + "data_source": "SPAR-Bench", + "question": "How does the relative position of storage bin (red bbox) to the observer change when the observer moves to the center of books (green bbox) and faces the 3D center of trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , behind\nB. right, below, \nC. left, below, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006555/000.jpg", + "spar_bench/sample_006555/001.jpg", + "spar_bench/sample_006555/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6556, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is chair (red bbox) relative to the observer? After the observer moves to the center of chair (green bbox) and faces chair (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, \nB. right, , behind\nC. right, below, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006556/000.jpg", + "spar_bench/sample_006556/001.jpg", + "spar_bench/sample_006556/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6557, + "data_source": "SPAR-Bench", + "question": "Describe where couch (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to fans 3D center (green bbox) and faces shelfs 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, behind\nB. left, , \nC. right, above, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006557/000.jpg", + "spar_bench/sample_006557/001.jpg", + "spar_bench/sample_006557/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6558, + "data_source": "SPAR-Bench", + "question": "What is the position of shower walls (red bbox) from the observer\u2019s viewpoint before and after the observer moves to the 3D center of toilet paper (green bbox) and faces bathtub (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , front\nB. , below, front\nC. , above, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006558/000.jpg", + "spar_bench/sample_006558/001.jpg", + "spar_bench/sample_006558/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6559, + "data_source": "SPAR-Bench", + "question": "What direction is mat (red bbox) from the observer initially? If the observer moves to the 3D center of window (green bbox) and faces bathroom vanity (blue bbox), where is mat now? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , above, front\nB. right, above, \nC. right, below, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006559/000.jpg", + "spar_bench/sample_006559/001.jpg", + "spar_bench/sample_006559/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6560, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to bathroom cabinets 3D center (green bbox) and faces pillows 3D center (blue bbox), what is the relationship between the observer and stool (red bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, front\nB. right, below, \nC. left, below, \nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006560/000.jpg", + "spar_bench/sample_006560/001.jpg", + "spar_bench/sample_006560/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6561, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of pillow (green bbox) and facing pillow (blue bbox), where does lamp (red bbox) lie in relation to the observer? After moving, where is lamp now? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , above, front\nB. left, above, front\nC. right, above, \nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006561/000.jpg", + "spar_bench/sample_006561/001.jpg", + "spar_bench/sample_006561/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6562, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of cabinet (green bbox) and faces the center of picture (blue bbox), how does the positional relationship between sink (red bbox) and the observer transform? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, \nB. right, , behind\nC. right, below, front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006562/000.jpg", + "spar_bench/sample_006562/001.jpg", + "spar_bench/sample_006562/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6563, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between shower control valve (red bbox) and the observer after the observer moves to the center of rail (green bbox) and faces shower walls (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, below, \nB. , above, front\nC. left, above, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006563/000.jpg", + "spar_bench/sample_006563/001.jpg", + "spar_bench/sample_006563/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6564, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of window (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of chair (green bbox) and faces trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , below, behind\nB. right, above, \nC. left, , front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006564/000.jpg", + "spar_bench/sample_006564/001.jpg", + "spar_bench/sample_006564/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6565, + "data_source": "SPAR-Bench", + "question": "How does the relative position of table (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, front\nB. right, below, \nC. , above, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006565/000.jpg", + "spar_bench/sample_006565/001.jpg", + "spar_bench/sample_006565/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6566, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between backpack (red bbox) and the observer? If the observer moves to the 3D center of shoes (green bbox) and faces the 3D center of backpack (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, \nB. left, , front\nC. left, above, behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006566/000.jpg", + "spar_bench/sample_006566/001.jpg", + "spar_bench/sample_006566/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6567, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is carton (red bbox) relative to the observer? After the observer moves to the center of paper towel roll (green bbox) and faces beer bottles (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , front\nB. left, below, behind\nC. left, , behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006567/000.jpg", + "spar_bench/sample_006567/001.jpg", + "spar_bench/sample_006567/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6568, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of chair (red bbox) to the observer shift when the observer moves from their original position to chair\u2019s 3D center (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, front\nB. right, , front\nC. left, , behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006568/000.jpg", + "spar_bench/sample_006568/001.jpg", + "spar_bench/sample_006568/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6569, + "data_source": "SPAR-Bench", + "question": "How does the relative position of chair (red bbox) to the observer change after the observer shifts to the 3D center of box (green bbox) and faces the 3D center of backpack (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, \nB. left, , front\nC. left, above, \nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006569/000.jpg", + "spar_bench/sample_006569/001.jpg", + "spar_bench/sample_006569/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6570, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is vending machine (red bbox)? After the observer moves to the center of trash can (green bbox) and faces vending machine (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, front\nB. right, , front\nC. right, below, behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006570/000.jpg", + "spar_bench/sample_006570/001.jpg", + "spar_bench/sample_006570/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6571, + "data_source": "SPAR-Bench", + "question": "Where does bag (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to tables 3D center (green bbox) and faces clothes dryerss 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, front\nB. right, below, front\nC. , above, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006571/000.jpg", + "spar_bench/sample_006571/001.jpg", + "spar_bench/sample_006571/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6572, + "data_source": "SPAR-Bench", + "question": "Describe where table (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to office chairs 3D center (green bbox) and faces office chairs 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, \nB. right, below, \nC. left, above, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006572/000.jpg", + "spar_bench/sample_006572/001.jpg", + "spar_bench/sample_006572/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6573, + "data_source": "SPAR-Bench", + "question": "Before moving to the 3D center of plant (green bbox) and facing clothes (blue bbox), where does mirror (red bbox) lie in relation to the observer? What about after the movement? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, behind\nB. left, , front\nC. left, below, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006573/000.jpg", + "spar_bench/sample_006573/001.jpg", + "spar_bench/sample_006573/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6574, + "data_source": "SPAR-Bench", + "question": "Describe where sink (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to doorss 3D center (green bbox) and faces windows 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , front\nB. left, below, front\nC. left, below, \nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006574/000.jpg", + "spar_bench/sample_006574/001.jpg", + "spar_bench/sample_006574/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6575, + "data_source": "SPAR-Bench", + "question": "What is the position of recycling bin (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of trash can (green bbox) and faces bed (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , above, front\nB. right, , behind\nC. right, , front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006575/000.jpg", + "spar_bench/sample_006575/001.jpg", + "spar_bench/sample_006575/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6576, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of recliner chair (red bbox) to the observer before and after the observer moves to the 3D center of keyboard piano (green bbox) and faces the center of tv (blue bbox). Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, front\nB. left, above, behind\nC. left, below, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006576/000.jpg", + "spar_bench/sample_006576/001.jpg", + "spar_bench/sample_006576/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6577, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of chair (green bbox) and faces books (blue bbox), what change occurs in the position of books (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, behind\nB. left, above, front\nC. right, above, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006577/000.jpg", + "spar_bench/sample_006577/001.jpg", + "spar_bench/sample_006577/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6578, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is trash can (red bbox)? After the observer moves to the center of chair (green bbox) and faces tv (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , front\nB. left, above, front\nC. left, above, \nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006578/000.jpg", + "spar_bench/sample_006578/001.jpg", + "spar_bench/sample_006578/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6579, + "data_source": "SPAR-Bench", + "question": "Where does chair (red bbox) stand in relation to the observer\u2019s initial position? After the observer moves to the center of chair (green bbox) and faces the center of chair (blue bbox), where does chair lie? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, front\nB. right, , front\nC. left, below, behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006579/000.jpg", + "spar_bench/sample_006579/001.jpg", + "spar_bench/sample_006579/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6580, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of divider (red bbox) relative to the observer before they move to the center of chair (green bbox) and face backpack (blue bbox)? After moving, where does divider stand? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, front\nB. left, , behind\nC. right, below, \nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006580/000.jpg", + "spar_bench/sample_006580/001.jpg", + "spar_bench/sample_006580/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6581, + "data_source": "SPAR-Bench", + "question": "What happens to the position of window (red bbox) in relation to the observer after they move to the 3D center of banner (green bbox) and face the center of beanbag chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, , front\nB. , above, behind\nC. left, above, \nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006581/000.jpg", + "spar_bench/sample_006581/001.jpg", + "spar_bench/sample_006581/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6582, + "data_source": "SPAR-Bench", + "question": "What is the position of board (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, \nB. , above, behind\nC. left, , front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006582/000.jpg", + "spar_bench/sample_006582/001.jpg", + "spar_bench/sample_006582/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6583, + "data_source": "SPAR-Bench", + "question": "If the observer moves to lamps 3D center (green bbox) and faces monitors 3D center (blue bbox), how does office chair (red bbox) shift in relation to the observer? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. , below, front\nB. left, below, \nC. , above, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006583/000.jpg", + "spar_bench/sample_006583/001.jpg", + "spar_bench/sample_006583/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6584, + "data_source": "SPAR-Bench", + "question": "Where does table (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to chairs 3D center (green bbox) and faces chairs 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, behind\nB. right, , front\nC. left, above, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006584/000.jpg", + "spar_bench/sample_006584/001.jpg", + "spar_bench/sample_006584/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6585, + "data_source": "SPAR-Bench", + "question": "What direction is chair (red bbox) from the observer initially? If the observer moves to the 3D center of chair (green bbox) and faces chair (blue bbox), where is chair now? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , front\nB. left, above, behind\nC. , above, behind\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006585/000.jpg", + "spar_bench/sample_006585/001.jpg", + "spar_bench/sample_006585/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6586, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is desk (red bbox) relative to the observer? After the observer moves to the center of trash can (green bbox) and faces lamp (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, front\nB. right, below, behind\nC. left, below, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006586/000.jpg", + "spar_bench/sample_006586/001.jpg", + "spar_bench/sample_006586/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6587, + "data_source": "SPAR-Bench", + "question": "What happens to the position of smoke detector (red bbox) in relation to the observer after they move to the 3D center of desk lamp (green bbox) and face the center of pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, \nB. left, , behind\nC. right, above, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006587/000.jpg", + "spar_bench/sample_006587/001.jpg", + "spar_bench/sample_006587/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6588, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between chair (red bbox) and the observer after the observer moves to the center of chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, behind\nB. right, , behind\nC. left, below, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006588/000.jpg", + "spar_bench/sample_006588/001.jpg", + "spar_bench/sample_006588/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6589, + "data_source": "SPAR-Bench", + "question": "Where does lamp (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to backpacks 3D center (green bbox) and faces pillows 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, below, behind\nB. left, below, front\nC. left, above, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006589/000.jpg", + "spar_bench/sample_006589/001.jpg", + "spar_bench/sample_006589/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6590, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of monitor (green bbox) and facing book (blue bbox), where does keyboard (red bbox) lie in relation to the observer? After moving, where is keyboard now? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, behind\nB. left, below, \nC. left, below, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006590/000.jpg", + "spar_bench/sample_006590/001.jpg", + "spar_bench/sample_006590/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6591, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of monitor (red bbox) to the observer shift when the observer moves from their original position to monitor\u2019s 3D center (green bbox) and faces cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, behind\nB. right, , behind\nC. , below, behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006591/000.jpg", + "spar_bench/sample_006591/001.jpg", + "spar_bench/sample_006591/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6592, + "data_source": "SPAR-Bench", + "question": "How does the relative position of trash can (red bbox) to the observer shift when the observer moves to the 3D center of table (green bbox) and faces the 3D center of trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, front\nB. , above, behind\nC. right, above, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006592/000.jpg", + "spar_bench/sample_006592/001.jpg", + "spar_bench/sample_006592/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6593, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is pillow (red bbox) relative to the observer? After the observer moves to the center of plant (green bbox) and faces pillow (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, , behind\nB. left, below, behind\nC. right, below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006593/000.jpg", + "spar_bench/sample_006593/001.jpg", + "spar_bench/sample_006593/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6594, + "data_source": "SPAR-Bench", + "question": "Describe where trash can (red bbox) is located from the observer\u2019s point of view before and after the observer moves to the 3D center of radiator (green bbox) and faces chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , behind\nB. left, above, \nC. , above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006594/000.jpg", + "spar_bench/sample_006594/001.jpg", + "spar_bench/sample_006594/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6595, + "data_source": "SPAR-Bench", + "question": "Where is monitor (red bbox) located from the observer\u2019s point of view initially? After the observer moves to the 3D center of monitor (green bbox) and faces plant (blue bbox), where does monitor lie? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , behind\nB. left, above, behind\nC. left, , front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006595/000.jpg", + "spar_bench/sample_006595/001.jpg", + "spar_bench/sample_006595/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6596, + "data_source": "SPAR-Bench", + "question": "Where is soap dish (red bbox) initially from the observers perspective? How does the position of soap dish change once the observer moves to the center of pillow (green bbox) and faces bed (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, front\nB. right, below, front\nC. left, below, \nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006596/000.jpg", + "spar_bench/sample_006596/001.jpg", + "spar_bench/sample_006596/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6597, + "data_source": "SPAR-Bench", + "question": "How does the position of vacuum cleaner (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of towel (green bbox) and faces bathtub (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , below, front\nB. , above, front\nC. left, above, behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006597/000.jpg", + "spar_bench/sample_006597/001.jpg", + "spar_bench/sample_006597/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6598, + "data_source": "SPAR-Bench", + "question": "If the observer first perceives toilet paper (red bbox) in a specific direction, how does the relationship change when the observer moves to rail\u2019s center (green bbox) and faces toilet\u2019s center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, , front\nB. left, below, front\nC. left, below, \nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006598/000.jpg", + "spar_bench/sample_006598/001.jpg", + "spar_bench/sample_006598/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6599, + "data_source": "SPAR-Bench", + "question": "What change occurs in the spatial relationship between the observer and chair (red bbox) when the observer shifts from their original position to the 3D center of chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , front\nB. left, above, \nC. right, , behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006599/000.jpg", + "spar_bench/sample_006599/001.jpg", + "spar_bench/sample_006599/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6600, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of chair (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, behind\nB. left, , front\nC. right, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006600/000.jpg", + "spar_bench/sample_006600/001.jpg", + "spar_bench/sample_006600/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6601, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of trash can (green bbox) and facing fan (blue bbox), where is cabinet (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , front\nB. right, , \nC. right, above, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006601/000.jpg", + "spar_bench/sample_006601/001.jpg", + "spar_bench/sample_006601/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6602, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between kitchen cabinets (red bbox) and the observer change when the observer moves to the center of sink (green bbox) and faces kitchen cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , below, front\nB. left, below, front\nC. , above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006602/000.jpg", + "spar_bench/sample_006602/001.jpg", + "spar_bench/sample_006602/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6603, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of whiteboard (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of keyboard (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, \nB. , below, behind\nC. left, below, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006603/000.jpg", + "spar_bench/sample_006603/001.jpg", + "spar_bench/sample_006603/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6604, + "data_source": "SPAR-Bench", + "question": "How does the positional relationship of shower door (red bbox) to the observer evolve once the observer shifts to the 3D center of mat (green bbox) and faces towels (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, front\nB. left, below, behind\nC. , below, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006604/000.jpg", + "spar_bench/sample_006604/001.jpg", + "spar_bench/sample_006604/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6605, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is whiteboard (red bbox)? How does this relationship shift once the observer moves to mini fridge\u2019s 3D center (green bbox) and faces office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , front\nB. left, above, behind\nC. right, above, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006605/000.jpg", + "spar_bench/sample_006605/001.jpg", + "spar_bench/sample_006605/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6606, + "data_source": "SPAR-Bench", + "question": "What direction is chair (red bbox) from the observer initially? If the observer moves to the 3D center of chair (green bbox) and faces chair (blue bbox), where is chair now? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, \nB. left, , \nC. right, below, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006606/000.jpg", + "spar_bench/sample_006606/001.jpg", + "spar_bench/sample_006606/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6607, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is laptop (red bbox)? How does the position of laptop change once the observer moves to the center of nightstand (green bbox) and faces the 3D center of backpack (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , above, front\nB. left, above, front\nC. right, below, \nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006607/000.jpg", + "spar_bench/sample_006607/001.jpg", + "spar_bench/sample_006607/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6608, + "data_source": "SPAR-Bench", + "question": "What direction is trash can (red bbox) from the observer initially? If the observer moves to the 3D center of chair (green bbox) and faces cooler (blue bbox), where is trash can now? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , below, behind\nB. left, below, behind\nC. left, above, \nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006608/000.jpg", + "spar_bench/sample_006608/001.jpg", + "spar_bench/sample_006608/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6609, + "data_source": "SPAR-Bench", + "question": "How does the relative position of books (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of books (green bbox) and faces books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, front\nB. left, below, front\nC. right, below, behind\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006609/000.jpg", + "spar_bench/sample_006609/001.jpg", + "spar_bench/sample_006609/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6610, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is soap dispenser (red bbox) relative to the observer? After the observer moves to the center of sink (green bbox) and faces backpack (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , above, behind\nB. , above, front\nC. left, above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006610/000.jpg", + "spar_bench/sample_006610/001.jpg", + "spar_bench/sample_006610/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6611, + "data_source": "SPAR-Bench", + "question": "What is the position of armchair (red bbox) from the observer\u2019s viewpoint before and after the observer moves to the 3D center of end table (green bbox) and faces armchair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , above, front\nB. right, below, front\nC. left, above, \nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006611/000.jpg", + "spar_bench/sample_006611/001.jpg", + "spar_bench/sample_006611/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6612, + "data_source": "SPAR-Bench", + "question": "How does the position of paper (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of pillow (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, , front\nB. left, below, behind\nC. , above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006612/000.jpg", + "spar_bench/sample_006612/001.jpg", + "spar_bench/sample_006612/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6613, + "data_source": "SPAR-Bench", + "question": "Describe where pillow (red bbox) is located from the observer\u2019s point of view before and after the observer moves to the 3D center of book (green bbox) and faces tube (blue bbox). Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , front\nB. right, , front\nC. right, below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006613/000.jpg", + "spar_bench/sample_006613/001.jpg", + "spar_bench/sample_006613/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6614, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is radiator (red bbox)? How does the position of radiator change once the observer moves to the center of mattress (green bbox) and faces the 3D center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, \nB. right, , behind\nC. , below, behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006614/000.jpg", + "spar_bench/sample_006614/001.jpg", + "spar_bench/sample_006614/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6615, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to whiteboards 3D center (green bbox) and faces chairs 3D center (blue bbox), what is the relationship between the observer and chair (red bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , front\nB. left, below, front\nC. right, below, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006615/000.jpg", + "spar_bench/sample_006615/001.jpg", + "spar_bench/sample_006615/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6616, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship of plunger (red bbox) relative to the observer\u2019s initial position? How does this relationship change once the observer shifts to the 3D center of towel (green bbox) and faces the 3D center of shower walls (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, front\nB. left, below, \nC. right, below, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006616/000.jpg", + "spar_bench/sample_006616/001.jpg", + "spar_bench/sample_006616/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6617, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between tv (red bbox) and the observer after the observer moves to the center of table (green bbox) and faces tv stand (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, \nB. right, above, front\nC. right, below, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006617/000.jpg", + "spar_bench/sample_006617/001.jpg", + "spar_bench/sample_006617/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6618, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is chair (red bbox)? How does this relationship shift once the observer moves to chair\u2019s 3D center (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, front\nB. right, , front\nC. left, above, behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006618/000.jpg", + "spar_bench/sample_006618/001.jpg", + "spar_bench/sample_006618/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6619, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between books (red bbox) and the observer after the observer moves to the center of books (green bbox) and faces books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , below, front\nB. , above, front\nC. left, , behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006619/000.jpg", + "spar_bench/sample_006619/001.jpg", + "spar_bench/sample_006619/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6620, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship of trash can (red bbox) relative to the observer\u2019s initial position? How does this relationship change once the observer shifts to the 3D center of sink (green bbox) and faces the 3D center of towel (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, front\nB. left, above, front\nC. right, above, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006620/000.jpg", + "spar_bench/sample_006620/001.jpg", + "spar_bench/sample_006620/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6621, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of books (red bbox) relative to the observer before they move to the center of lamp (green bbox) and face bookshelf (blue bbox)? After moving, where does books stand? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, behind\nB. right, below, front\nC. left, , behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006621/000.jpg", + "spar_bench/sample_006621/001.jpg", + "spar_bench/sample_006621/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6622, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between whiteboard (red bbox) and the observer changes after the observer moves to the 3D center of pillow (green bbox) and faces couch (blue bbox). Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , behind\nB. , above, behind\nC. , below, behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006622/000.jpg", + "spar_bench/sample_006622/001.jpg", + "spar_bench/sample_006622/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6623, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of trash can (green bbox) and faces toilet (blue bbox), what change occurs in the position of telephone (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. , below, behind\nB. , above, front\nC. left, above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006623/000.jpg", + "spar_bench/sample_006623/001.jpg", + "spar_bench/sample_006623/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6624, + "data_source": "SPAR-Bench", + "question": "How does the relative position of books (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of books (green bbox) and faces books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, front\nB. right, , front\nC. right, below, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006624/000.jpg", + "spar_bench/sample_006624/001.jpg", + "spar_bench/sample_006624/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6625, + "data_source": "SPAR-Bench", + "question": "Where is chair (red bbox) in relation to the observer before they move to the 3D center of chair (green bbox) and face chair (blue bbox)? After the movement, where is chair positioned? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, behind\nB. right, , front\nC. right, above, \nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006625/000.jpg", + "spar_bench/sample_006625/001.jpg", + "spar_bench/sample_006625/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6626, + "data_source": "SPAR-Bench", + "question": "Where is chair (red bbox) located from the observer\u2019s point of view initially? After the observer moves to the 3D center of table (green bbox) and faces cabinet (blue bbox), where does chair lie? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, front\nB. right, above, behind\nC. left, above, \nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006626/000.jpg", + "spar_bench/sample_006626/001.jpg", + "spar_bench/sample_006626/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6627, + "data_source": "SPAR-Bench", + "question": "What happens to the position of table (red bbox) after the observer moves to the 3D center of kitchen counter (green bbox) and faces the center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, front\nB. , below, behind\nC. right, above, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006627/000.jpg", + "spar_bench/sample_006627/001.jpg", + "spar_bench/sample_006627/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6628, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between towel (red bbox) and the observer? If the observer moves to the 3D center of towel (green bbox) and faces the 3D center of trash can (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, front\nB. right, , behind\nC. left, below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006628/000.jpg", + "spar_bench/sample_006628/001.jpg", + "spar_bench/sample_006628/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6629, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between books (red bbox) and the observer changes after the observer moves to the 3D center of books (green bbox) and faces books (blue bbox). Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , behind\nB. right, below, behind\nC. left, , front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006629/000.jpg", + "spar_bench/sample_006629/001.jpg", + "spar_bench/sample_006629/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6630, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of printer (red bbox) to the observer shift when the observer moves from their original position to table\u2019s 3D center (green bbox) and faces bed (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, front\nB. left, below, behind\nC. , below, behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006630/000.jpg", + "spar_bench/sample_006630/001.jpg", + "spar_bench/sample_006630/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6631, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of trash can (green bbox) and faces toilet paper dispenser (blue bbox), what change occurs in the position of toilet (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , above, behind\nB. right, below, front\nC. right, , front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006631/000.jpg", + "spar_bench/sample_006631/001.jpg", + "spar_bench/sample_006631/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6632, + "data_source": "SPAR-Bench", + "question": "Where is desk (red bbox) located relative to the observer initially? After the observer moves to the center of dresser (green bbox) and faces wood beam (blue bbox), how is the position of desk (red bbox) altered? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, \nB. right, , behind\nC. right, , front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006632/000.jpg", + "spar_bench/sample_006632/001.jpg", + "spar_bench/sample_006632/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6633, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between chair (red bbox) and the observer change when the observer moves to the center of chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , front\nB. left, , behind\nC. right, below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006633/000.jpg", + "spar_bench/sample_006633/001.jpg", + "spar_bench/sample_006633/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6634, + "data_source": "SPAR-Bench", + "question": "What happens to the position of window (red bbox) in relation to the observer after they move to the 3D center of armchair (green bbox) and face the center of vacuum cleaner (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, front\nB. left, , behind\nC. left, above, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006634/000.jpg", + "spar_bench/sample_006634/001.jpg", + "spar_bench/sample_006634/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6635, + "data_source": "SPAR-Bench", + "question": "How does the relative position of trash can (red bbox) to the observer shift when the observer moves to the 3D center of desk (green bbox) and faces the 3D center of monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, front\nB. right, below, front\nC. right, below, \nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006635/000.jpg", + "spar_bench/sample_006635/001.jpg", + "spar_bench/sample_006635/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6636, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of file cabinet (green bbox) and orientation toward jacket (blue bbox) affect the positioning of chair (red bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, above, behind\nB. left, , front\nC. , below, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006636/000.jpg", + "spar_bench/sample_006636/001.jpg", + "spar_bench/sample_006636/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6637, + "data_source": "SPAR-Bench", + "question": "Where is shower curtain (red bbox) in relation to the observer before they move to the 3D center of faucet (green bbox) and face toilet paper (blue bbox)? After the movement, where is shower curtain positioned? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , front\nB. right, below, \nC. right, above, behind\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006637/000.jpg", + "spar_bench/sample_006637/001.jpg", + "spar_bench/sample_006637/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6638, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of projector screen (red bbox) to the observer shift when the observer moves from their original position to chair\u2019s 3D center (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, front\nB. left, below, behind\nC. left, , behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006638/000.jpg", + "spar_bench/sample_006638/001.jpg", + "spar_bench/sample_006638/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6639, + "data_source": "SPAR-Bench", + "question": "Where does trash can (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to chairs 3D center (green bbox) and faces beds 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , behind\nB. left, below, behind\nC. , above, front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006639/000.jpg", + "spar_bench/sample_006639/001.jpg", + "spar_bench/sample_006639/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6640, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of armchair (green bbox) and orientation toward armchair (blue bbox) affect the positioning of armchair (red bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, , front\nB. , above, front\nC. right, , behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006640/000.jpg", + "spar_bench/sample_006640/001.jpg", + "spar_bench/sample_006640/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6641, + "data_source": "SPAR-Bench", + "question": "How does the relative position of table (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, \nB. right, , behind\nC. , below, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006641/000.jpg", + "spar_bench/sample_006641/001.jpg", + "spar_bench/sample_006641/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6642, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of lamp (red bbox) to the observer before and after the observer moves to the 3D center of nightstand (green bbox) and faces the center of closet (blue bbox). Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, behind\nB. left, below, \nC. right, above, \nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006642/000.jpg", + "spar_bench/sample_006642/001.jpg", + "spar_bench/sample_006642/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6643, + "data_source": "SPAR-Bench", + "question": "What change occurs in the spatial relationship between the observer and backpack (red bbox) when the observer shifts from their original position to the 3D center of desk (green bbox) and faces recycling bin (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , below, front\nB. left, above, front\nC. right, above, \nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006643/000.jpg", + "spar_bench/sample_006643/001.jpg", + "spar_bench/sample_006643/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6644, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between office chair (red bbox) and the observer after the observer moves to the center of office chair (green bbox) and faces office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, front\nB. right, below, \nC. right, , behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006644/000.jpg", + "spar_bench/sample_006644/001.jpg", + "spar_bench/sample_006644/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6645, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between clothes dryers (red bbox) and the observer after the observer moves to the center of sink (green bbox) and faces laundry detergent (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, \nB. right, , behind\nC. left, , front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006645/000.jpg", + "spar_bench/sample_006645/001.jpg", + "spar_bench/sample_006645/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6646, + "data_source": "SPAR-Bench", + "question": "What is the position of trash can (red bbox) relative to the observer both before and after the observer moves to the 3D center of book (green bbox) and faces box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , front\nB. right, above, front\nC. , below, behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006646/000.jpg", + "spar_bench/sample_006646/001.jpg", + "spar_bench/sample_006646/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6647, + "data_source": "SPAR-Bench", + "question": "How does the relative position of closet (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of nightstand (green bbox) and faces closet door (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, behind\nB. , above, front\nC. right, , front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006647/000.jpg", + "spar_bench/sample_006647/001.jpg", + "spar_bench/sample_006647/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6648, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between shelf (red bbox) and the observer changes after the observer moves to the 3D center of power strip (green bbox) and faces box (blue bbox). Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, behind\nB. right, below, \nC. right, above, behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006648/000.jpg", + "spar_bench/sample_006648/001.jpg", + "spar_bench/sample_006648/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6649, + "data_source": "SPAR-Bench", + "question": "Where is cabinet (red bbox) in relation to the observer before they move to the 3D center of pillow (green bbox) and face curtain (blue bbox)? After the movement, where is cabinet positioned? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , above, behind\nB. right, , front\nC. left, , behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006649/000.jpg", + "spar_bench/sample_006649/001.jpg", + "spar_bench/sample_006649/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6650, + "data_source": "SPAR-Bench", + "question": "Describe where monitor (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to monitors 3D center (green bbox) and faces plants 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , behind\nB. right, above, behind\nC. , above, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006650/000.jpg", + "spar_bench/sample_006650/001.jpg", + "spar_bench/sample_006650/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6651, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is trash can (red bbox)? After the observer moves to the center of trash can (green bbox) and faces trash can (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, behind\nB. left, , behind\nC. left, , front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006651/000.jpg", + "spar_bench/sample_006651/001.jpg", + "spar_bench/sample_006651/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6652, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of whiteboard (green bbox) and facing backpack (blue bbox), where does couch (red bbox) lie in relation to the observer? After moving, where is couch now? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, , behind\nB. right, above, front\nC. left, , front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006652/000.jpg", + "spar_bench/sample_006652/001.jpg", + "spar_bench/sample_006652/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6653, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of whiteboard (red bbox) to the observer before and after the observer moves to the 3D center of desk (green bbox) and faces the center of whiteboard (blue bbox). Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, front\nB. left, above, \nC. right, above, \nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006653/000.jpg", + "spar_bench/sample_006653/001.jpg", + "spar_bench/sample_006653/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6654, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between table (red bbox) and the observer change when the observer moves to the center of chair (green bbox) and faces picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, front\nB. right, below, behind\nC. left, above, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006654/000.jpg", + "spar_bench/sample_006654/001.jpg", + "spar_bench/sample_006654/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6655, + "data_source": "SPAR-Bench", + "question": "Where is table (red bbox) initially from the observers perspective? How does the position of table change once the observer moves to the center of chair (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, \nB. right, below, behind\nC. right, , front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006655/000.jpg", + "spar_bench/sample_006655/001.jpg", + "spar_bench/sample_006655/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6656, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between printer (red bbox) and the observer changes after the observer moves to the 3D center of trash can (green bbox) and faces books (blue bbox). Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , above, behind\nB. left, , behind\nC. , below, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006656/000.jpg", + "spar_bench/sample_006656/001.jpg", + "spar_bench/sample_006656/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6657, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of curtain (red bbox) to the observer before and after the observer moves to the 3D center of pillow (green bbox) and faces the center of pillow (blue bbox). Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, below, behind\nB. left, below, \nC. right, , front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006657/000.jpg", + "spar_bench/sample_006657/001.jpg", + "spar_bench/sample_006657/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6658, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of monitor (green bbox) and facing computer tower (blue bbox), where does table (red bbox) lie in relation to the observer? After moving, where is table now? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, front\nB. , above, front\nC. right, , front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006658/000.jpg", + "spar_bench/sample_006658/001.jpg", + "spar_bench/sample_006658/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6659, + "data_source": "SPAR-Bench", + "question": "Where does keyboard (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to radiators 3D center (green bbox) and faces desks 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, front\nB. right, below, \nC. right, above, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006659/000.jpg", + "spar_bench/sample_006659/001.jpg", + "spar_bench/sample_006659/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6660, + "data_source": "SPAR-Bench", + "question": "If the observer moves to tables 3D center (green bbox) and faces tvs 3D center (blue bbox), how does chair (red bbox) shift in relation to the observer? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, behind\nB. right, below, front\nC. right, , behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006660/000.jpg", + "spar_bench/sample_006660/001.jpg", + "spar_bench/sample_006660/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6661, + "data_source": "SPAR-Bench", + "question": "Where is bathroom cabinet (red bbox) in relation to the observer before they move to the 3D center of mat (green bbox) and face towel (blue bbox)? After the movement, where is bathroom cabinet positioned? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, behind\nB. left, above, \nC. left, , behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006661/000.jpg", + "spar_bench/sample_006661/001.jpg", + "spar_bench/sample_006661/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6662, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of cart (green bbox) and orientation toward cabinets (blue bbox) affect the positioning of counter (red bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , behind\nB. right, , front\nC. left, above, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006662/000.jpg", + "spar_bench/sample_006662/001.jpg", + "spar_bench/sample_006662/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6663, + "data_source": "SPAR-Bench", + "question": "What change occurs in the spatial relationship between the observer and chair (red bbox) when the observer shifts from their original position to the 3D center of chair (green bbox) and faces table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, below, \nB. right, above, behind\nC. , below, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006663/000.jpg", + "spar_bench/sample_006663/001.jpg", + "spar_bench/sample_006663/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6664, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of chair (green bbox) and orientation toward chair (blue bbox) affect the positioning of table (red bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , front\nB. right, below, behind\nC. , below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006664/000.jpg", + "spar_bench/sample_006664/001.jpg", + "spar_bench/sample_006664/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6665, + "data_source": "SPAR-Bench", + "question": "What happens to the position of monitor (red bbox) in relation to the observer after they move to the 3D center of desk (green bbox) and face the center of file cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , above, behind\nB. left, , front\nC. left, above, front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006665/000.jpg", + "spar_bench/sample_006665/001.jpg", + "spar_bench/sample_006665/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6666, + "data_source": "SPAR-Bench", + "question": "Where does nightstand (red bbox) stand in relation to the observer\u2019s initial position? After the observer moves to the center of lamp (green bbox) and faces the center of pillow (blue bbox), where does nightstand lie? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, below, front\nB. right, above, behind\nC. right, below, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006666/000.jpg", + "spar_bench/sample_006666/001.jpg", + "spar_bench/sample_006666/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6667, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between toilet seat cover dispenser (red bbox) and the observer before and after the observer moves to rails 3D center (green bbox) and faces trash cans 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, front\nB. , above, front\nC. left, above, behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006667/000.jpg", + "spar_bench/sample_006667/001.jpg", + "spar_bench/sample_006667/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6668, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between table (red bbox) and the observer change when the observer moves to the center of ping pong table (green bbox) and faces table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, front\nB. right, above, behind\nC. right, , front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006668/000.jpg", + "spar_bench/sample_006668/001.jpg", + "spar_bench/sample_006668/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6669, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is books (red bbox)? After the observer moves to the center of chair (green bbox) and faces books (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , above, front\nB. right, above, behind\nC. left, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006669/000.jpg", + "spar_bench/sample_006669/001.jpg", + "spar_bench/sample_006669/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6670, + "data_source": "SPAR-Bench", + "question": "Where is coffee maker (red bbox) located from the observer\u2019s point of view initially? After the observer moves to the 3D center of salt (green bbox) and faces range hood (blue bbox), where does coffee maker lie? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , front\nB. right, , behind\nC. , above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006670/000.jpg", + "spar_bench/sample_006670/001.jpg", + "spar_bench/sample_006670/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6671, + "data_source": "SPAR-Bench", + "question": "If the observer first perceives book (red bbox) in a specific direction, how does the relationship change when the observer moves to backpack\u2019s center (green bbox) and faces chair\u2019s center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, behind\nB. right, below, front\nC. , above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006671/000.jpg", + "spar_bench/sample_006671/001.jpg", + "spar_bench/sample_006671/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6672, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of cup (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of trash can (green bbox) and faces mat (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, behind\nB. left, below, behind\nC. left, below, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006672/000.jpg", + "spar_bench/sample_006672/001.jpg", + "spar_bench/sample_006672/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6673, + "data_source": "SPAR-Bench", + "question": "Where does doors (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to toolboxs 3D center (green bbox) and faces pianos 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , behind\nB. right, below, front\nC. right, , behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006673/000.jpg", + "spar_bench/sample_006673/001.jpg", + "spar_bench/sample_006673/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6674, + "data_source": "SPAR-Bench", + "question": "What direction is power outlet (red bbox) from the observer initially? If the observer moves to the 3D center of telephone (green bbox) and faces table (blue bbox), where is power outlet now? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, \nB. right, above, front\nC. left, above, \nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006674/000.jpg", + "spar_bench/sample_006674/001.jpg", + "spar_bench/sample_006674/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6675, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between cabinet (red bbox) and the observer change when the observer moves to the center of curtain (green bbox) and faces couch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, \nB. right, below, front\nC. right, , front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006675/000.jpg", + "spar_bench/sample_006675/001.jpg", + "spar_bench/sample_006675/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6676, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of recycling bin (green bbox) and orientation toward rack (blue bbox) affect the positioning of trash can (red bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, , behind\nB. right, below, \nC. left, below, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006676/000.jpg", + "spar_bench/sample_006676/001.jpg", + "spar_bench/sample_006676/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6677, + "data_source": "SPAR-Bench", + "question": "In terms of spatial orientation, how does the position of office chair (red bbox) relative to the observer change once the observer moves to the center of monitor (green bbox) and faces the center of desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, below, front\nB. right, below, front\nC. right, above, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006677/000.jpg", + "spar_bench/sample_006677/001.jpg", + "spar_bench/sample_006677/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6678, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of bathroom stall (green bbox) and faces bathroom stall door (blue bbox), where is rail (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, front\nB. right, , behind\nC. left, , front\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006678/000.jpg", + "spar_bench/sample_006678/001.jpg", + "spar_bench/sample_006678/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6679, + "data_source": "SPAR-Bench", + "question": "What is the position of book (red bbox) from the observer\u2019s viewpoint before and after the observer moves to the 3D center of radiator (green bbox) and faces monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , below, behind\nB. , above, front\nC. right, below, \nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006679/000.jpg", + "spar_bench/sample_006679/001.jpg", + "spar_bench/sample_006679/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6680, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of guitar (green bbox) and faces cabinet (blue bbox), how does the relative location of chair (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, front\nB. left, above, \nC. left, above, behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006680/000.jpg", + "spar_bench/sample_006680/001.jpg", + "spar_bench/sample_006680/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6681, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of trash bin (green bbox) and orientation toward dispenser (blue bbox) affect the spatial relationship between toilet paper (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, front\nB. , above, front\nC. left, , front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006681/000.jpg", + "spar_bench/sample_006681/001.jpg", + "spar_bench/sample_006681/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6682, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between lamp (red bbox) and the observer changes after the observer moves to the 3D center of chair (green bbox) and faces chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, front\nB. right, above, behind\nC. right, , front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006682/000.jpg", + "spar_bench/sample_006682/001.jpg", + "spar_bench/sample_006682/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6683, + "data_source": "SPAR-Bench", + "question": "Where is trash can (red bbox) in relation to the observer before they move to the 3D center of toilet paper holder (green bbox) and face seat (blue bbox)? After the movement, where is trash can positioned? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, front\nB. right, below, behind\nC. left, , front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006683/000.jpg", + "spar_bench/sample_006683/001.jpg", + "spar_bench/sample_006683/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6684, + "data_source": "SPAR-Bench", + "question": "How does the positional relationship of books (red bbox) to the observer evolve once the observer shifts to the 3D center of books (green bbox) and faces books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, behind\nB. right, below, \nC. , below, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006684/000.jpg", + "spar_bench/sample_006684/001.jpg", + "spar_bench/sample_006684/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6685, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between chair (red bbox) and the observer changes after the observer moves to the 3D center of chair (green bbox) and faces trash can (blue bbox). Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , above, behind\nB. right, below, behind\nC. left, below, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006685/000.jpg", + "spar_bench/sample_006685/001.jpg", + "spar_bench/sample_006685/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6686, + "data_source": "SPAR-Bench", + "question": "Where is table (red bbox) initially from the observers perspective? How does the position of table change once the observer moves to the center of table (green bbox) and faces whiteboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, \nB. right, above, behind\nC. right, , front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006686/000.jpg", + "spar_bench/sample_006686/001.jpg", + "spar_bench/sample_006686/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6687, + "data_source": "SPAR-Bench", + "question": "Where is books (red bbox) in relation to the observer before and after the observer moves to papers\u2019s 3D center (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , front\nB. left, above, \nC. left, above, behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006687/000.jpg", + "spar_bench/sample_006687/001.jpg", + "spar_bench/sample_006687/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6688, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is monitor (red bbox)? After the observer moves to the center of books (green bbox) and faces box (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , behind\nB. left, above, behind\nC. left, , front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006688/000.jpg", + "spar_bench/sample_006688/001.jpg", + "spar_bench/sample_006688/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6689, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of chair (green bbox) and faces chair (blue bbox), where is chair (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, below, behind\nB. right, , front\nC. right, below, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006689/000.jpg", + "spar_bench/sample_006689/001.jpg", + "spar_bench/sample_006689/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6690, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between file cabinet (red bbox) and the observer changes after the observer moves to the 3D center of gaming wheel (green bbox) and faces computer tower (blue bbox). Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, below, \nB. left, below, front\nC. right, below, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006690/000.jpg", + "spar_bench/sample_006690/001.jpg", + "spar_bench/sample_006690/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6691, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between armchair (red bbox) and the observer after the observer moves to the center of tissue box (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , front\nB. left, below, behind\nC. left, above, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006691/000.jpg", + "spar_bench/sample_006691/001.jpg", + "spar_bench/sample_006691/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6692, + "data_source": "SPAR-Bench", + "question": "What is the position of mirror (red bbox) from the observer\u2019s viewpoint before and after the observer moves to the 3D center of stool (green bbox) and faces cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, behind\nB. left, above, behind\nC. left, below, behind\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006692/000.jpg", + "spar_bench/sample_006692/001.jpg", + "spar_bench/sample_006692/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6693, + "data_source": "SPAR-Bench", + "question": "How does the position of pillow (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of bedside counter (green bbox) and faces pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, front\nB. right, above, behind\nC. right, below, behind\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006693/000.jpg", + "spar_bench/sample_006693/001.jpg", + "spar_bench/sample_006693/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6694, + "data_source": "SPAR-Bench", + "question": "What happens to the position of book (red bbox) in relation to the observer after they move to the 3D center of blanket (green bbox) and face the center of sofa chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, \nB. right, above, behind\nC. right, below, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006694/000.jpg", + "spar_bench/sample_006694/001.jpg", + "spar_bench/sample_006694/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6695, + "data_source": "SPAR-Bench", + "question": "How does the position of tap (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of carpet (green bbox) and faces kitchen counter (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, behind\nB. , below, behind\nC. right, , behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006695/000.jpg", + "spar_bench/sample_006695/001.jpg", + "spar_bench/sample_006695/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6696, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of pipe (green bbox) and faces trash can (blue bbox), where is pipe (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, behind\nB. right, below, front\nC. left, above, \nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006696/000.jpg", + "spar_bench/sample_006696/001.jpg", + "spar_bench/sample_006696/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6697, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of table (green bbox) and faces beanbag (blue bbox), how does the relative location of power socket (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, behind\nB. right, above, front\nC. , above, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006697/000.jpg", + "spar_bench/sample_006697/001.jpg", + "spar_bench/sample_006697/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6698, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is picture (red bbox) relative to the observer? After the observer moves to the center of window (green bbox) and faces book (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , above, front\nB. , above, behind\nC. , below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006698/000.jpg", + "spar_bench/sample_006698/001.jpg", + "spar_bench/sample_006698/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6699, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of office chair (green bbox) and faces table (blue bbox), how does the relative location of window (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , above, front\nB. right, below, \nC. right, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006699/000.jpg", + "spar_bench/sample_006699/001.jpg", + "spar_bench/sample_006699/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6700, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of cardboard box (green bbox) and orientation toward cardboard box (blue bbox) affect the positioning of cardboard box (red bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , behind\nB. left, below, front\nC. right, above, \nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006700/000.jpg", + "spar_bench/sample_006700/001.jpg", + "spar_bench/sample_006700/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6701, + "data_source": "SPAR-Bench", + "question": "How does the position of paper shredder (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of cable raceway (green bbox) and faces exhaust fan (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , below, behind\nB. left, above, behind\nC. , above, behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006701/000.jpg", + "spar_bench/sample_006701/001.jpg", + "spar_bench/sample_006701/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6702, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of utensils (red bbox) to the observer shift when the observer moves from their original position to tray\u2019s 3D center (green bbox) and faces paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, behind\nB. , above, front\nC. , below, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006702/000.jpg", + "spar_bench/sample_006702/001.jpg", + "spar_bench/sample_006702/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6703, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is power socket (red bbox)? How does the position of power socket change once the observer moves to the center of office chair (green bbox) and faces the 3D center of light switch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , behind\nB. right, below, behind\nC. left, , front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006703/000.jpg", + "spar_bench/sample_006703/001.jpg", + "spar_bench/sample_006703/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6704, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship of cardboard box (red bbox) relative to the observer\u2019s initial position? How does this relationship change once the observer shifts to the 3D center of cardboard box (green bbox) and faces the 3D center of cardboard box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, front\nB. right, , \nC. right, , behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006704/000.jpg", + "spar_bench/sample_006704/001.jpg", + "spar_bench/sample_006704/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6705, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of shelf (green bbox) and facing dishwasher (blue bbox), where is coffee machine (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, \nB. , above, behind\nC. right, below, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006705/000.jpg", + "spar_bench/sample_006705/001.jpg", + "spar_bench/sample_006705/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6706, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between trash can (red bbox) and the observer changes after the observer moves to the 3D center of chair (green bbox) and faces storage ecabinet (blue bbox). Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , behind\nB. right, below, behind\nC. right, below, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006706/000.jpg", + "spar_bench/sample_006706/001.jpg", + "spar_bench/sample_006706/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6707, + "data_source": "SPAR-Bench", + "question": "What change occurs in the spatial relationship between the observer and monitor (red bbox) when the observer shifts from their original position to the 3D center of office chair (green bbox) and faces monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, behind\nB. right, above, front\nC. right, , front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006707/000.jpg", + "spar_bench/sample_006707/001.jpg", + "spar_bench/sample_006707/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6708, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between box (red bbox) and the observer after the observer moves to the center of monitor (green bbox) and faces box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, \nB. , below, behind\nC. left, below, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006708/000.jpg", + "spar_bench/sample_006708/001.jpg", + "spar_bench/sample_006708/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6709, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of keyboard (green bbox) and orientation toward pen holder (blue bbox) affect the positioning of table (red bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, front\nB. , above, front\nC. , above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006709/000.jpg", + "spar_bench/sample_006709/001.jpg", + "spar_bench/sample_006709/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6710, + "data_source": "SPAR-Bench", + "question": "What happens to the position of box (red bbox) in relation to the observer after they move to the 3D center of refrigerator (green bbox) and face the center of cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , front\nB. right, , behind\nC. left, below, front\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006710/000.jpg", + "spar_bench/sample_006710/001.jpg", + "spar_bench/sample_006710/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6711, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of keyboard (green bbox) and orientation toward table (blue bbox) affect the positioning of paper towel (red bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, front\nB. left, below, front\nC. left, above, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006711/000.jpg", + "spar_bench/sample_006711/001.jpg", + "spar_bench/sample_006711/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6712, + "data_source": "SPAR-Bench", + "question": "Where does plate (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to windows 3D center (green bbox) and faces chairs 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, \nB. right, , front\nC. right, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006712/000.jpg", + "spar_bench/sample_006712/001.jpg", + "spar_bench/sample_006712/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6713, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of box (green bbox) and faces table (blue bbox), what change occurs in the position of box (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, , behind\nB. left, below, \nC. left, below, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006713/000.jpg", + "spar_bench/sample_006713/001.jpg", + "spar_bench/sample_006713/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6714, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of light switch (green bbox) and faces chair (blue bbox), what change occurs in the position of chair (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, front\nB. , above, front\nC. left, below, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006714/000.jpg", + "spar_bench/sample_006714/001.jpg", + "spar_bench/sample_006714/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6715, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is refrigerator (red bbox)? How does the position of refrigerator change once the observer moves to the center of power socket (green bbox) and faces the 3D center of cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, \nB. right, above, behind\nC. , below, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006715/000.jpg", + "spar_bench/sample_006715/001.jpg", + "spar_bench/sample_006715/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6716, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of shoes (green bbox) and orientation toward toilet (blue bbox) affect the positioning of shoes (red bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, behind\nB. left, below, front\nC. , above, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006716/000.jpg", + "spar_bench/sample_006716/001.jpg", + "spar_bench/sample_006716/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6717, + "data_source": "SPAR-Bench", + "question": "If the observer moves to machines 3D center (green bbox) and faces cables 3D center (blue bbox), how does helmet (red bbox) shift in relation to the observer? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , above, front\nB. left, above, behind\nC. right, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006717/000.jpg", + "spar_bench/sample_006717/001.jpg", + "spar_bench/sample_006717/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6718, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of cable duct (green bbox) and faces cable raceway (blue bbox), where is power sockets (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, behind\nB. , above, behind\nC. left, above, \nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006718/000.jpg", + "spar_bench/sample_006718/001.jpg", + "spar_bench/sample_006718/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6719, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of light switch (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of cup (green bbox) and faces table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, above, front\nB. , below, front\nC. , above, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006719/000.jpg", + "spar_bench/sample_006719/001.jpg", + "spar_bench/sample_006719/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6720, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of wooden pallet (green bbox) and facing window (blue bbox), where does storage cabinet (red bbox) lie in relation to the observer? After moving, where is storage cabinet now? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. , above, front\nB. right, above, front\nC. right, below, front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006720/000.jpg", + "spar_bench/sample_006720/001.jpg", + "spar_bench/sample_006720/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6721, + "data_source": "SPAR-Bench", + "question": "What is the position of box (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of blinds (green bbox) and faces calendar (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. , below, behind\nB. , below, front\nC. , above, front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006721/000.jpg", + "spar_bench/sample_006721/001.jpg", + "spar_bench/sample_006721/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6722, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between water kettle (red bbox) and the observer after the observer moves to the center of cushion (green bbox) and faces sofa (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, behind\nB. left, above, \nC. , above, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006722/000.jpg", + "spar_bench/sample_006722/001.jpg", + "spar_bench/sample_006722/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6723, + "data_source": "SPAR-Bench", + "question": "Where is computer tower (red bbox) located from the observer\u2019s point of view initially? After the observer moves to the 3D center of window (green bbox) and faces computer tower (blue bbox), where does computer tower lie? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, front\nB. right, above, front\nC. right, above, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006723/000.jpg", + "spar_bench/sample_006723/001.jpg", + "spar_bench/sample_006723/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6724, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between air conditioner (red bbox) and the observer? If the observer moves to the 3D center of windowframe (green bbox) and faces the 3D center of whiteboard (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, behind\nB. left, below, \nC. , below, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006724/000.jpg", + "spar_bench/sample_006724/001.jpg", + "spar_bench/sample_006724/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6725, + "data_source": "SPAR-Bench", + "question": "How does the relative position of kitchen cabinet (red bbox) to the observer shift when the observer moves to the 3D center of chair (green bbox) and faces the 3D center of kitchen counter (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , above, front\nB. , below, behind\nC. right, , front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006725/000.jpg", + "spar_bench/sample_006725/001.jpg", + "spar_bench/sample_006725/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6726, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of box (green bbox) and faces fire extinguisher (blue bbox), how does the relative location of softbox light (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, front\nB. left, above, front\nC. left, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006726/000.jpg", + "spar_bench/sample_006726/001.jpg", + "spar_bench/sample_006726/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6727, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between book (red bbox) and the observer? If the observer moves to the 3D center of book (green bbox) and faces the 3D center of light switch (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, behind\nB. , below, front\nC. right, above, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006727/000.jpg", + "spar_bench/sample_006727/001.jpg", + "spar_bench/sample_006727/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6728, + "data_source": "SPAR-Bench", + "question": "What direction is office chair (red bbox) from the observer initially? If the observer moves to the 3D center of power socket (green bbox) and faces table (blue bbox), where is office chair now? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , below, front\nB. , above, front\nC. left, , front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006728/000.jpg", + "spar_bench/sample_006728/001.jpg", + "spar_bench/sample_006728/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6729, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of mirror (red bbox) to the observer before and after the observer moves to the 3D center of trash bin (green bbox) and faces the center of telephone (blue bbox). Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, behind\nB. left, , behind\nC. right, above, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006729/000.jpg", + "spar_bench/sample_006729/001.jpg", + "spar_bench/sample_006729/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6730, + "data_source": "SPAR-Bench", + "question": "Describe where picture (red bbox) is located from the observer\u2019s point of view before and after the observer moves to the 3D center of power socket (green bbox) and faces monitor (blue bbox). Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, behind\nB. , below, behind\nC. right, above, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006730/000.jpg", + "spar_bench/sample_006730/001.jpg", + "spar_bench/sample_006730/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6731, + "data_source": "SPAR-Bench", + "question": "If the observer moves to tables 3D center (green bbox) and faces boxs 3D center (blue bbox), how does box (red bbox) shift in relation to the observer? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, front\nB. , above, front\nC. right, above, behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006731/000.jpg", + "spar_bench/sample_006731/001.jpg", + "spar_bench/sample_006731/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6732, + "data_source": "SPAR-Bench", + "question": "How does the relative position of mouse pad (red bbox) to the observer shift when the observer moves to the 3D center of file (green bbox) and faces the 3D center of folders (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, above, front\nB. , above, front\nC. left, above, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006732/000.jpg", + "spar_bench/sample_006732/001.jpg", + "spar_bench/sample_006732/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6733, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of trash bin (green bbox) and faces blinds (blue bbox), how does the relative location of plant (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , front\nB. , above, front\nC. left, above, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006733/000.jpg", + "spar_bench/sample_006733/001.jpg", + "spar_bench/sample_006733/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6734, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of window (green bbox) and faces box (blue bbox), how does the relative location of pencil stande (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, front\nB. right, above, front\nC. , below, behind\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006734/000.jpg", + "spar_bench/sample_006734/001.jpg", + "spar_bench/sample_006734/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6735, + "data_source": "SPAR-Bench", + "question": "Where does computer tower (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to mouses 3D center (green bbox) and faces computer towers 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, front\nB. right, below, behind\nC. , above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006735/000.jpg", + "spar_bench/sample_006735/001.jpg", + "spar_bench/sample_006735/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6736, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship of windowsill (red bbox) relative to the observer\u2019s initial position? How does this relationship change once the observer shifts to the 3D center of file (green bbox) and faces the 3D center of folders (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , above, front\nB. left, above, front\nC. right, above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006736/000.jpg", + "spar_bench/sample_006736/001.jpg", + "spar_bench/sample_006736/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6737, + "data_source": "SPAR-Bench", + "question": "What is the position of book (red bbox) from the observer\u2019s viewpoint before and after the observer moves to the 3D center of bottle crate (green bbox) and faces whiteboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, behind\nB. left, , behind\nC. right, below, \nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006737/000.jpg", + "spar_bench/sample_006737/001.jpg", + "spar_bench/sample_006737/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6738, + "data_source": "SPAR-Bench", + "question": "If the observer first perceives toilet (red bbox) in a specific direction, how does the relationship change when the observer moves to shower curtain\u2019s center (green bbox) and faces bathroom cabinet\u2019s center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, front\nB. right, below, front\nC. left, below, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006738/000.jpg", + "spar_bench/sample_006738/001.jpg", + "spar_bench/sample_006738/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6739, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between bed (red bbox) and the observer before and after the observer moves to jackets 3D center (green bbox) and faces shoes 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , behind\nB. right, below, behind\nC. left, , front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006739/000.jpg", + "spar_bench/sample_006739/001.jpg", + "spar_bench/sample_006739/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6740, + "data_source": "SPAR-Bench", + "question": "Describe where foldable closet (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to beds 3D center (green bbox) and faces light switchs 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, front\nB. right, above, \nC. left, , front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006740/000.jpg", + "spar_bench/sample_006740/001.jpg", + "spar_bench/sample_006740/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6741, + "data_source": "SPAR-Bench", + "question": "How does the relative position of arm chair (red bbox) to the observer change after the observer shifts to the 3D center of copier (green bbox) and faces the 3D center of box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , below, behind\nB. left, , behind\nC. left, above, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006741/000.jpg", + "spar_bench/sample_006741/001.jpg", + "spar_bench/sample_006741/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6742, + "data_source": "SPAR-Bench", + "question": "Where is sink counter (red bbox) initially from the observers perspective? How does the position of sink counter change once the observer moves to the center of kitchen cabinet (green bbox) and faces picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , front\nB. left, , behind\nC. left, above, \nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006742/000.jpg", + "spar_bench/sample_006742/001.jpg", + "spar_bench/sample_006742/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6743, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of shelf (green bbox) and orientation toward paper (blue bbox) affect the positioning of dishwasher (red bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , front\nB. , above, front\nC. right, above, front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006743/000.jpg", + "spar_bench/sample_006743/001.jpg", + "spar_bench/sample_006743/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6744, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between sculpture (red bbox) and the observer changes after the observer moves to the 3D center of clothes (green bbox) and faces monitor (blue bbox). Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, front\nB. , below, behind\nC. right, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006744/000.jpg", + "spar_bench/sample_006744/001.jpg", + "spar_bench/sample_006744/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6745, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between plant (red bbox) and the observer after the observer moves to the center of tv (green bbox) and faces guitar (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , front\nB. right, below, \nC. right, below, behind\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006745/000.jpg", + "spar_bench/sample_006745/001.jpg", + "spar_bench/sample_006745/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6746, + "data_source": "SPAR-Bench", + "question": "What happens to the position of trash bin (red bbox) after the observer moves to the 3D center of pencil stande (green bbox) and faces the center of bag (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, below, behind\nB. , above, behind\nC. , below, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006746/000.jpg", + "spar_bench/sample_006746/001.jpg", + "spar_bench/sample_006746/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6747, + "data_source": "SPAR-Bench", + "question": "Before moving to the 3D center of shower curtain (green bbox) and facing bottle (blue bbox), where does bathtub (red bbox) lie in relation to the observer? What about after the movement? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , behind\nB. left, below, front\nC. right, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006747/000.jpg", + "spar_bench/sample_006747/001.jpg", + "spar_bench/sample_006747/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6748, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between table (red bbox) and the observer change when the observer moves to the center of chair (green bbox) and faces box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, below, front\nB. right, above, behind\nC. , above, front\nD. left, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006748/000.jpg", + "spar_bench/sample_006748/001.jpg", + "spar_bench/sample_006748/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6749, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of box (green bbox) and faces table (blue bbox), where is arm chair (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , behind\nB. right, above, behind\nC. right, above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006749/000.jpg", + "spar_bench/sample_006749/001.jpg", + "spar_bench/sample_006749/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6750, + "data_source": "SPAR-Bench", + "question": "How does the relative position of trash bin (red bbox) to the observer change after the observer shifts to the 3D center of bottle crate (green bbox) and faces the 3D center of bottle crate (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, behind\nB. left, below, front\nC. right, below, \nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006750/000.jpg", + "spar_bench/sample_006750/001.jpg", + "spar_bench/sample_006750/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6751, + "data_source": "SPAR-Bench", + "question": "What direction is chair (red bbox) from the observer initially? If the observer moves to the 3D center of table (green bbox) and faces chair (blue bbox), where is chair now? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, above, front\nB. left, below, front\nC. , below, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006751/000.jpg", + "spar_bench/sample_006751/001.jpg", + "spar_bench/sample_006751/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6752, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship of blinds (red bbox) relative to the observer\u2019s initial position? How does this relationship change once the observer shifts to the 3D center of box (green bbox) and faces the 3D center of table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, behind\nB. right, above, behind\nC. , above, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006752/000.jpg", + "spar_bench/sample_006752/001.jpg", + "spar_bench/sample_006752/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6753, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of bag (green bbox) and faces stool (blue bbox), where is tools (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , behind\nB. left, below, \nC. left, , behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006753/000.jpg", + "spar_bench/sample_006753/001.jpg", + "spar_bench/sample_006753/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6754, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is flush button (red bbox)? How does the position of flush button change once the observer moves to the center of trash bin (green bbox) and faces the 3D center of toilet brush (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , above, front\nB. , below, front\nC. left, below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006754/000.jpg", + "spar_bench/sample_006754/001.jpg", + "spar_bench/sample_006754/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6755, + "data_source": "SPAR-Bench", + "question": "What happens to the position of shelf (red bbox) in relation to the observer after they move to the 3D center of blanket (green bbox) and face the center of instant pot (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, behind\nB. left, , front\nC. right, , behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006755/000.jpg", + "spar_bench/sample_006755/001.jpg", + "spar_bench/sample_006755/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6756, + "data_source": "SPAR-Bench", + "question": "How does the positional relationship of chair (red bbox) to the observer evolve once the observer shifts to the 3D center of mouse (green bbox) and faces computer tower (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, behind\nB. left, above, front\nC. right, above, front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006756/000.jpg", + "spar_bench/sample_006756/001.jpg", + "spar_bench/sample_006756/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6757, + "data_source": "SPAR-Bench", + "question": "Before moving to the 3D center of table (green bbox) and facing box (blue bbox), where does trash bin (red bbox) lie in relation to the observer? What about after the movement? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, \nB. right, below, front\nC. left, , front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006757/000.jpg", + "spar_bench/sample_006757/001.jpg", + "spar_bench/sample_006757/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6758, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of utensils (green bbox) and facing container (blue bbox), where does coffee maker (red bbox) lie in relation to the observer? After moving, where is coffee maker now? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, behind\nB. right, above, \nC. left, , front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006758/000.jpg", + "spar_bench/sample_006758/001.jpg", + "spar_bench/sample_006758/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6759, + "data_source": "SPAR-Bench", + "question": "Where is toilet brush (red bbox) located from the observer\u2019s point of view initially? After the observer moves to the 3D center of window (green bbox) and faces toilet paper (blue bbox), where does toilet brush lie? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , behind\nB. left, above, behind\nC. right, above, \nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006759/000.jpg", + "spar_bench/sample_006759/001.jpg", + "spar_bench/sample_006759/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6760, + "data_source": "SPAR-Bench", + "question": "What is the position of printer (red bbox) from the observer\u2019s viewpoint before and after the observer moves to the 3D center of cable raceway (green bbox) and faces exhaust fan (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, front\nB. left, below, \nC. right, , front\nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006760/000.jpg", + "spar_bench/sample_006760/001.jpg", + "spar_bench/sample_006760/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6761, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship between shelf (red bbox) and the observer? If the observer moves to the 3D center of table (green bbox) and faces the 3D center of pedestal fan (blue bbox), how does this change? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, , front\nB. left, above, front\nC. right, below, behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006761/000.jpg", + "spar_bench/sample_006761/001.jpg", + "spar_bench/sample_006761/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6762, + "data_source": "SPAR-Bench", + "question": "Where is table (red bbox) in relation to the observer before they move to the 3D center of window (green bbox) and face chair (blue bbox)? After the movement, where is table positioned? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, behind\nB. right, below, \nC. right, above, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006762/000.jpg", + "spar_bench/sample_006762/001.jpg", + "spar_bench/sample_006762/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6763, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is chair (red bbox) relative to the observer? After the observer moves to the center of light switch (green bbox) and faces hand soap dispenser (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, behind\nB. right, above, front\nC. left, , behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006763/000.jpg", + "spar_bench/sample_006763/001.jpg", + "spar_bench/sample_006763/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6764, + "data_source": "SPAR-Bench", + "question": "How does the positional relationship of structure (red bbox) to the observer evolve once the observer shifts to the 3D center of beanbag (green bbox) and faces beanbag (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, front\nB. right, below, \nC. left, above, front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006764/000.jpg", + "spar_bench/sample_006764/001.jpg", + "spar_bench/sample_006764/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6765, + "data_source": "SPAR-Bench", + "question": "What is the position of machine (red bbox) from the observer\u2019s perspective initially? How does this change once the observer moves to the 3D center of board (green bbox) and faces pipe (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, behind\nB. left, , behind\nC. right, above, behind\nD. , above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006765/000.jpg", + "spar_bench/sample_006765/001.jpg", + "spar_bench/sample_006765/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6766, + "data_source": "SPAR-Bench", + "question": "How does the relative position of toilet flush button (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of split (green bbox) and faces toothbrush holder (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, below, front\nB. left, , front\nC. , above, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006766/000.jpg", + "spar_bench/sample_006766/001.jpg", + "spar_bench/sample_006766/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6767, + "data_source": "SPAR-Bench", + "question": "How does the relative position of monitor (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of cabinet (green bbox) and faces trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, front\nB. , above, front\nC. left, , behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006767/000.jpg", + "spar_bench/sample_006767/001.jpg", + "spar_bench/sample_006767/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6768, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of sofa (green bbox) and faces bicycle (blue bbox), where is pillow (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, \nB. left, , behind\nC. right, below, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006768/000.jpg", + "spar_bench/sample_006768/001.jpg", + "spar_bench/sample_006768/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6769, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between office chair (red bbox) and the observer after the observer moves to the center of table (green bbox) and faces switch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , behind\nB. right, above, front\nC. left, , front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006769/000.jpg", + "spar_bench/sample_006769/001.jpg", + "spar_bench/sample_006769/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6770, + "data_source": "SPAR-Bench", + "question": "Describe where box (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to cabinets 3D center (green bbox) and faces boxs 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, front\nB. left, above, behind\nC. left, , behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006770/000.jpg", + "spar_bench/sample_006770/001.jpg", + "spar_bench/sample_006770/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6771, + "data_source": "SPAR-Bench", + "question": "Where is trash bin (red bbox) located from the observer\u2019s point of view initially? After the observer moves to the 3D center of suitcase (green bbox) and faces kitchen cabinet (blue bbox), where does trash bin lie? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, front\nB. left, , front\nC. right, , behind\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006771/000.jpg", + "spar_bench/sample_006771/001.jpg", + "spar_bench/sample_006771/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6772, + "data_source": "SPAR-Bench", + "question": "Where is bottle (red bbox) in relation to the observer before and after the observer moves to pillar\u2019s 3D center (green bbox) and faces cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, behind\nB. , above, front\nC. right, below, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006772/000.jpg", + "spar_bench/sample_006772/001.jpg", + "spar_bench/sample_006772/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6773, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of box (green bbox) and facing storage cabinet (blue bbox), where is box (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, behind\nB. left, below, \nC. right, above, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006773/000.jpg", + "spar_bench/sample_006773/001.jpg", + "spar_bench/sample_006773/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6774, + "data_source": "SPAR-Bench", + "question": "How does the relative position of helmet (red bbox) to the observer shift when the observer moves to the 3D center of cable (green bbox) and faces the 3D center of fire extinguisher (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, \nB. left, above, behind\nC. right, below, front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006774/000.jpg", + "spar_bench/sample_006774/001.jpg", + "spar_bench/sample_006774/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6775, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of curtain (green bbox) and faces cabinet (blue bbox), what change occurs in the position of table lamp (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, front\nB. , below, behind\nC. , above, behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006775/000.jpg", + "spar_bench/sample_006775/001.jpg", + "spar_bench/sample_006775/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6776, + "data_source": "SPAR-Bench", + "question": "If the observer first perceives light switch (red bbox) in a specific direction, how does the relationship change when the observer moves to blackboard frame\u2019s center (green bbox) and faces blackboard\u2019s center (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , above, behind\nB. right, below, front\nC. right, above, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006776/000.jpg", + "spar_bench/sample_006776/001.jpg", + "spar_bench/sample_006776/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6777, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of kitchen counter (green bbox) and faces book (blue bbox), where is blanket (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, , behind\nB. right, below, behind\nC. right, below, \nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006777/000.jpg", + "spar_bench/sample_006777/001.jpg", + "spar_bench/sample_006777/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6778, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of kitchen cabinet (green bbox) and facing liquid soap (blue bbox), where does power socket (red bbox) lie in relation to the observer? After moving, where is power socket now? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, front\nB. right, above, behind\nC. left, below, front\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006778/000.jpg", + "spar_bench/sample_006778/001.jpg", + "spar_bench/sample_006778/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6779, + "data_source": "SPAR-Bench", + "question": "If the observer moves to faucets 3D center (green bbox) and faces shower gels 3D center (blue bbox), how does sink (red bbox) shift in relation to the observer? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, front\nB. right, , front\nC. left, , front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006779/000.jpg", + "spar_bench/sample_006779/001.jpg", + "spar_bench/sample_006779/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6780, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of paper towel package (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of jar (green bbox) and faces bar stool (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, front\nB. , below, front\nC. right, above, \nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006780/000.jpg", + "spar_bench/sample_006780/001.jpg", + "spar_bench/sample_006780/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6781, + "data_source": "SPAR-Bench", + "question": "What is the position of box (red bbox) relative to the observer both before and after the observer moves to the 3D center of backpack (green bbox) and faces toilet paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, front\nB. left, below, front\nC. left, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006781/000.jpg", + "spar_bench/sample_006781/001.jpg", + "spar_bench/sample_006781/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6782, + "data_source": "SPAR-Bench", + "question": "What direction is box (red bbox) from the observer initially? If the observer moves to the 3D center of book (green bbox) and faces chair (blue bbox), where is box now? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, below, \nB. right, below, front\nC. left, , front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006782/000.jpg", + "spar_bench/sample_006782/001.jpg", + "spar_bench/sample_006782/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6783, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the center of switch (green bbox) and faces whiteboard (blue bbox), what change occurs in the position of office chair (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, front\nB. right, , front\nC. right, below, front\nD. left, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006783/000.jpg", + "spar_bench/sample_006783/001.jpg", + "spar_bench/sample_006783/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6784, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of kitchen cabinet (green bbox) and facing bicycle (blue bbox), where is bag (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, \nB. left, below, front\nC. left, above, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006784/000.jpg", + "spar_bench/sample_006784/001.jpg", + "spar_bench/sample_006784/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6785, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of microphone (red bbox) to the observer shift when the observer moves from their original position to desk\u2019s 3D center (green bbox) and faces blinds (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , below, behind\nB. right, above, front\nC. left, below, \nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006785/000.jpg", + "spar_bench/sample_006785/001.jpg", + "spar_bench/sample_006785/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6786, + "data_source": "SPAR-Bench", + "question": "Before moving to the 3D center of shelf (green bbox) and facing bed (blue bbox), where does pedestal fan (red bbox) lie in relation to the observer? What about after the movement? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, behind\nB. right, , front\nC. right, below, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006786/000.jpg", + "spar_bench/sample_006786/001.jpg", + "spar_bench/sample_006786/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6787, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is box (red bbox)? After the observer moves to the center of keyboard (green bbox) and faces light switch (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, \nB. right, above, \nC. left, , front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006787/000.jpg", + "spar_bench/sample_006787/001.jpg", + "spar_bench/sample_006787/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6788, + "data_source": "SPAR-Bench", + "question": "What direction is pipe (red bbox) from the observer initially? If the observer moves to the 3D center of board (green bbox) and faces pipe (blue bbox), where is pipe now? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, behind\nB. left, , behind\nC. right, below, \nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006788/000.jpg", + "spar_bench/sample_006788/001.jpg", + "spar_bench/sample_006788/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6789, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of water filter (green bbox) and facing kitchen cabinet (blue bbox), where does cabinet (red bbox) lie in relation to the observer? After moving, where is cabinet now? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, front\nB. right, , front\nC. right, above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006789/000.jpg", + "spar_bench/sample_006789/001.jpg", + "spar_bench/sample_006789/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6790, + "data_source": "SPAR-Bench", + "question": "How does the relative position of chair (red bbox) to the observer change when the observer moves to the center of storage cabinet (green bbox) and faces the 3D center of crate (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. , below, front\nB. left, , front\nC. , below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006790/000.jpg", + "spar_bench/sample_006790/001.jpg", + "spar_bench/sample_006790/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6791, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to the 3D center of hole puncher (green bbox) and orientation toward power sockets (blue bbox) affect the spatial relationship between coax socket (red bbox) and the observer? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, behind\nB. left, , front\nC. right, , front\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006791/000.jpg", + "spar_bench/sample_006791/001.jpg", + "spar_bench/sample_006791/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6792, + "data_source": "SPAR-Bench", + "question": "Describe how the positional relationship between picture (red bbox) and the observer changes after the observer moves to the 3D center of bedframe (green bbox) and faces window frame (blue bbox). Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, front\nB. left, above, front\nC. right, above, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006792/000.jpg", + "spar_bench/sample_006792/001.jpg", + "spar_bench/sample_006792/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6793, + "data_source": "SPAR-Bench", + "question": "Before and after the observer moves to keyboards 3D center (green bbox) and faces windows 3D center (blue bbox), what is the relationship between the observer and laptop (red bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, behind\nB. left, below, behind\nC. right, , front\nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006793/000.jpg", + "spar_bench/sample_006793/001.jpg", + "spar_bench/sample_006793/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6794, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of bathtub (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of cabinet (green bbox) and faces shower rug (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , below, front\nB. left, above, front\nC. right, , front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006794/000.jpg", + "spar_bench/sample_006794/001.jpg", + "spar_bench/sample_006794/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6795, + "data_source": "SPAR-Bench", + "question": "How does the positional relationship of shelf (red bbox) to the observer evolve once the observer shifts to the 3D center of cabinet (green bbox) and faces picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, behind\nB. right, above, behind\nC. right, above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006795/000.jpg", + "spar_bench/sample_006795/001.jpg", + "spar_bench/sample_006795/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6796, + "data_source": "SPAR-Bench", + "question": "Where does cables (red bbox) stand in relation to the observer\u2019s initial position? After the observer moves to the center of kitchen cabinet (green bbox) and faces the center of container (blue bbox), where does cables lie? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , below, front\nB. right, above, behind\nC. right, below, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006796/000.jpg", + "spar_bench/sample_006796/001.jpg", + "spar_bench/sample_006796/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6797, + "data_source": "SPAR-Bench", + "question": "What changes in the spatial relationship between toilet paper (red bbox) and the observer after the observer moves to the center of cleaning liquid (green bbox) and faces toilet brush (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. , below, front\nB. , above, behind\nC. right, , behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006797/000.jpg", + "spar_bench/sample_006797/001.jpg", + "spar_bench/sample_006797/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6798, + "data_source": "SPAR-Bench", + "question": "Before and after the observer shifts to the 3D center of table (green bbox) and faces arm chair (blue bbox), where is arm chair (red bbox) relative to the observer? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , behind\nB. , above, front\nC. right, , front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006798/000.jpg", + "spar_bench/sample_006798/001.jpg", + "spar_bench/sample_006798/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6799, + "data_source": "SPAR-Bench", + "question": "How does the relative position of mouse (red bbox) to the observer change after the observer shifts to the 3D center of blinds (green bbox) and faces the 3D center of table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , front\nB. left, below, behind\nC. left, above, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006799/000.jpg", + "spar_bench/sample_006799/001.jpg", + "spar_bench/sample_006799/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6800, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original position, where is storage cabinet (red bbox)? How does the position of storage cabinet change once the observer moves to the center of box (green bbox) and faces the 3D center of pen holder (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , behind\nB. right, below, behind\nC. left, , behind\nD. right, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006800/000.jpg", + "spar_bench/sample_006800/001.jpg", + "spar_bench/sample_006800/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6801, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is copy machine (red bbox)? After the observer moves to the center of book (green bbox) and faces whiteboard (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, behind\nB. right, above, front\nC. right, , front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006801/000.jpg", + "spar_bench/sample_006801/001.jpg", + "spar_bench/sample_006801/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6802, + "data_source": "SPAR-Bench", + "question": "What direction is box (red bbox) from the observer initially? If the observer moves to the 3D center of microwave (green bbox) and faces refrigerator (blue bbox), where is box now? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, front\nB. right, above, \nC. left, , front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006802/000.jpg", + "spar_bench/sample_006802/001.jpg", + "spar_bench/sample_006802/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6803, + "data_source": "SPAR-Bench", + "question": "Where is window (red bbox) in relation to the observer before and after the observer moves to window\u2019s 3D center (green bbox) and faces office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, \nB. left, above, front\nC. right, below, behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006803/000.jpg", + "spar_bench/sample_006803/001.jpg", + "spar_bench/sample_006803/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6804, + "data_source": "SPAR-Bench", + "question": "How does the relative position of cushion (red bbox) to the observer change when the observer moves to the center of cushion (green bbox) and faces the 3D center of sofa (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, below, front\nB. , below, behind\nC. left, below, \nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006804/000.jpg", + "spar_bench/sample_006804/001.jpg", + "spar_bench/sample_006804/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6805, + "data_source": "SPAR-Bench", + "question": "Where is pillow (red bbox) initially from the observers perspective? How does the position of pillow change once the observer moves to the center of plant (green bbox) and faces shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, front\nB. left, below, \nC. left, above, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006805/000.jpg", + "spar_bench/sample_006805/001.jpg", + "spar_bench/sample_006805/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6806, + "data_source": "SPAR-Bench", + "question": "How does the relative position of box (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of power socket (green bbox) and faces shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , below, front\nB. right, , front\nC. right, below, \nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006806/000.jpg", + "spar_bench/sample_006806/001.jpg", + "spar_bench/sample_006806/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6807, + "data_source": "SPAR-Bench", + "question": "Where does microwave (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to dish drying racks 3D center (green bbox) and faces dishwashing sponges 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, front\nB. left, , behind\nC. , below, behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006807/000.jpg", + "spar_bench/sample_006807/001.jpg", + "spar_bench/sample_006807/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6808, + "data_source": "SPAR-Bench", + "question": "Where is shelf (red bbox) initially from the observers perspective? How does the position of shelf change once the observer moves to the center of cabinet (green bbox) and faces office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , above, front\nB. , above, behind\nC. left, , front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006808/000.jpg", + "spar_bench/sample_006808/001.jpg", + "spar_bench/sample_006808/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6809, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of cardboard box (green bbox) and facing cardboard box (blue bbox), where is cardboard box (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , above, front\nB. left, below, front\nC. right, , front\nD. left, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006809/000.jpg", + "spar_bench/sample_006809/001.jpg", + "spar_bench/sample_006809/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6810, + "data_source": "SPAR-Bench", + "question": "What is the positional relationship of flat panel display (red bbox) relative to the observer\u2019s initial position? How does this relationship change once the observer shifts to the 3D center of office chair (green bbox) and faces the 3D center of switch (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, behind\nB. right, , front\nC. left, below, behind\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006810/000.jpg", + "spar_bench/sample_006810/001.jpg", + "spar_bench/sample_006810/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6811, + "data_source": "SPAR-Bench", + "question": "What is the position of box (red bbox) from the observer\u2019s viewpoint before and after the observer moves to the 3D center of helmet (green bbox) and faces surfboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, behind\nB. right, above, front\nC. right, below, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006811/000.jpg", + "spar_bench/sample_006811/001.jpg", + "spar_bench/sample_006811/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6812, + "data_source": "SPAR-Bench", + "question": "What direction is toilet (red bbox) from the observer initially? If the observer moves to the 3D center of flush button (green bbox) and faces toilet paper dispenser (blue bbox), where is toilet now? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, behind\nB. , below, front\nC. left, , behind\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006812/000.jpg", + "spar_bench/sample_006812/001.jpg", + "spar_bench/sample_006812/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6813, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of books (green bbox) and facing blinds (blue bbox), where does books (red bbox) lie in relation to the observer? After moving, where is books now? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, behind\nB. , below, behind\nC. left, below, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006813/000.jpg", + "spar_bench/sample_006813/001.jpg", + "spar_bench/sample_006813/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6814, + "data_source": "SPAR-Bench", + "question": "How does the relative position of jacket (red bbox) to the observer change after the observer shifts to the 3D center of power socket (green bbox) and faces the 3D center of decoration (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, front\nB. left, above, front\nC. left, below, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006814/000.jpg", + "spar_bench/sample_006814/001.jpg", + "spar_bench/sample_006814/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6815, + "data_source": "SPAR-Bench", + "question": "From the observers original position, where is paper (red bbox)? After the observer moves to the center of chair (green bbox) and faces window (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, front\nB. left, above, front\nC. right, below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006815/000.jpg", + "spar_bench/sample_006815/001.jpg", + "spar_bench/sample_006815/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6816, + "data_source": "SPAR-Bench", + "question": "Describe where power sockets (red bbox) is located from the observer\u2019s point of view before and after the observer moves to the 3D center of table (green bbox) and faces power sockets (blue bbox). Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, below, behind\nB. left, above, front\nC. left, , behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006816/000.jpg", + "spar_bench/sample_006816/001.jpg", + "spar_bench/sample_006816/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6817, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of light switch (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of picture (green bbox) and faces picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , behind\nB. right, below, front\nC. , above, behind\nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006817/000.jpg", + "spar_bench/sample_006817/001.jpg", + "spar_bench/sample_006817/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6818, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s original viewpoint, where is keyboard (red bbox)? How does this relationship shift once the observer moves to monitor\u2019s 3D center (green bbox) and faces desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , below, \nB. left, above, \nC. right, below, front\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006818/000.jpg", + "spar_bench/sample_006818/001.jpg", + "spar_bench/sample_006818/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6819, + "data_source": "SPAR-Bench", + "question": "What happens to the position of blinds (red bbox) in relation to the observer after they move to the 3D center of kitchen cabinet (green bbox) and face the center of cleaning brush (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , front\nB. , above, front\nC. left, above, \nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006819/000.jpg", + "spar_bench/sample_006819/001.jpg", + "spar_bench/sample_006819/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6820, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of table (green bbox) and faces shelf (blue bbox), how does the relative location of first aid box (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, front\nB. right, below, behind\nC. left, above, front\nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006820/000.jpg", + "spar_bench/sample_006820/001.jpg", + "spar_bench/sample_006820/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6821, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s shift to the 3D center of cardbox (green bbox) and orientation toward pipe (blue bbox) affect the positioning of machine (red bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, \nB. right, above, \nC. left, , front\nD. right, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006821/000.jpg", + "spar_bench/sample_006821/001.jpg", + "spar_bench/sample_006821/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6822, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of box (green bbox) and faces monitor (blue bbox), how does the relative location of printer (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, front\nB. right, above, behind\nC. , above, front\nD. left, above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006822/000.jpg", + "spar_bench/sample_006822/001.jpg", + "spar_bench/sample_006822/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6823, + "data_source": "SPAR-Bench", + "question": "How does the relative position of toilet brush (red bbox) change from the observer\u2019s original viewpoint to when the observer moves to the center of cleaning liquid (green bbox) and faces toilet paper (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, behind\nB. right, above, front\nC. right, below, front\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006823/000.jpg", + "spar_bench/sample_006823/001.jpg", + "spar_bench/sample_006823/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6824, + "data_source": "SPAR-Bench", + "question": "Where is foldable closet (red bbox) located from the observer\u2019s point of view initially? After the observer moves to the 3D center of cabinet (green bbox) and faces decoration (blue bbox), where does foldable closet lie? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, , front\nB. left, below, behind\nC. left, below, \nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006824/000.jpg", + "spar_bench/sample_006824/001.jpg", + "spar_bench/sample_006824/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6825, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of laboratory equipment (green bbox) and facing SPLIT (blue bbox), where is office chair (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, front\nB. , above, front\nC. left, above, behind\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006825/000.jpg", + "spar_bench/sample_006825/001.jpg", + "spar_bench/sample_006825/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6826, + "data_source": "SPAR-Bench", + "question": "How does the relative position of tray (red bbox) to the observer change when the observer moves to the center of box (green bbox) and faces the 3D center of trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, below, \nB. right, above, \nC. , above, behind\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006826/000.jpg", + "spar_bench/sample_006826/001.jpg", + "spar_bench/sample_006826/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6827, + "data_source": "SPAR-Bench", + "question": "What direction is bathtub (red bbox) from the observer initially? If the observer moves to the 3D center of toilet (green bbox) and faces bottle (blue bbox), where is bathtub now? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, front\nB. left, below, behind\nC. , below, behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006827/000.jpg", + "spar_bench/sample_006827/001.jpg", + "spar_bench/sample_006827/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6828, + "data_source": "SPAR-Bench", + "question": "What is the position of blinds (red bbox) from the observer\u2019s viewpoint before and after the observer moves to the 3D center of jug (green bbox) and faces storage cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, front\nB. left, below, behind\nC. , above, behind\nD. right, below, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006828/000.jpg", + "spar_bench/sample_006828/001.jpg", + "spar_bench/sample_006828/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6829, + "data_source": "SPAR-Bench", + "question": "How does the relative positioning of shelf (red bbox) to the observer shift when the observer moves from their original position to book\u2019s 3D center (green bbox) and faces curtain (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , below, behind\nB. left, below, behind\nC. right, below, \nD. right, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006829/000.jpg", + "spar_bench/sample_006829/001.jpg", + "spar_bench/sample_006829/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6830, + "data_source": "SPAR-Bench", + "question": "How does the position of power socket (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of chair (green bbox) and faces power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, above, front\nB. , above, front\nC. left, above, \nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006830/000.jpg", + "spar_bench/sample_006830/001.jpg", + "spar_bench/sample_006830/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6831, + "data_source": "SPAR-Bench", + "question": "How does the position of whiteboard (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of clothes hanger (green bbox) and faces bucket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , front\nB. right, above, front\nC. left, , front\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006831/000.jpg", + "spar_bench/sample_006831/001.jpg", + "spar_bench/sample_006831/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6832, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of light switch (green bbox) and faces whiteboard (blue bbox), where is coat hanger (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, \nB. right, , behind\nC. , below, front\nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006832/000.jpg", + "spar_bench/sample_006832/001.jpg", + "spar_bench/sample_006832/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6833, + "data_source": "SPAR-Bench", + "question": "Describe where cabinet (red bbox) is in relation to the observer initially, and then explain how this changes when the observer moves to light switchs 3D center (green bbox) and faces whiteboards 3D center (blue bbox). Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , front\nB. right, above, behind\nC. right, below, \nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006833/000.jpg", + "spar_bench/sample_006833/001.jpg", + "spar_bench/sample_006833/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6834, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of table (green bbox) and facing arm chair (blue bbox), where does table (red bbox) lie in relation to the observer? After moving, where is table now? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, front\nB. right, below, behind\nC. , above, front\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006834/000.jpg", + "spar_bench/sample_006834/001.jpg", + "spar_bench/sample_006834/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6835, + "data_source": "SPAR-Bench", + "question": "If the observer moves to the 3D center of keyboard (green bbox) and faces windowsill (blue bbox), how does the relative location of picture (red bbox) to the observer shift? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, \nB. right, above, front\nC. left, above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006835/000.jpg", + "spar_bench/sample_006835/001.jpg", + "spar_bench/sample_006835/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6836, + "data_source": "SPAR-Bench", + "question": "How does the relative position of trash can (red bbox) to the observer change after the observer shifts to the 3D center of cable (green bbox) and faces the 3D center of bag (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, behind\nB. left, below, front\nC. left, below, \nD. right, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006836/000.jpg", + "spar_bench/sample_006836/001.jpg", + "spar_bench/sample_006836/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6837, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of sink (green bbox) and facing kitchen cabinet (blue bbox), where does container (red bbox) lie in relation to the observer? After moving, where is container now? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, behind\nB. left, below, behind\nC. right, above, front\nD. right, above, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006837/000.jpg", + "spar_bench/sample_006837/001.jpg", + "spar_bench/sample_006837/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6838, + "data_source": "SPAR-Bench", + "question": "What is the spatial position of container (red bbox) relative to the observer before they move to the center of kitchen cabinet (green bbox) and face cables (blue bbox)? After moving, where does container stand? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , above, behind\nB. right, below, front\nC. right, below, \nD. left, above, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006838/000.jpg", + "spar_bench/sample_006838/001.jpg", + "spar_bench/sample_006838/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6839, + "data_source": "SPAR-Bench", + "question": "How does the position of spotlight (red bbox) relative to the observer evolve before and after the observer moves to the 3D center of fire extinguisher (green bbox) and faces monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, behind\nB. right, , front\nC. left, above, \nD. , above, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006839/000.jpg", + "spar_bench/sample_006839/001.jpg", + "spar_bench/sample_006839/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6840, + "data_source": "SPAR-Bench", + "question": "How does the relative position of box (red bbox) to the observer change when the observer moves to the center of laboratory equipment (green bbox) and faces the 3D center of pipe (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, , front\nB. , below, front\nC. right, above, \nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006840/000.jpg", + "spar_bench/sample_006840/001.jpg", + "spar_bench/sample_006840/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6841, + "data_source": "SPAR-Bench", + "question": "Describe where sofa (red bbox) is located from the observer\u2019s point of view before and after the observer moves to the 3D center of stove (green bbox) and faces tv receiver (blue bbox). Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , front\nB. right, below, front\nC. right, above, front\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006841/000.jpg", + "spar_bench/sample_006841/001.jpg", + "spar_bench/sample_006841/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6842, + "data_source": "SPAR-Bench", + "question": "Before the observer moves to the center of clothes (green bbox) and faces shoes (blue bbox), where is broom (red bbox)? After moving, where is it positioned relative to the observer? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, front\nB. , below, front\nC. right, above, behind\nD. right, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006842/000.jpg", + "spar_bench/sample_006842/001.jpg", + "spar_bench/sample_006842/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 6843, + "data_source": "SPAR-Bench", + "question": "Describe the relationship between chair (red bbox) and paper (yellow bbox) as initially seen by the observer and how it changes upon observer moving to file cabinet (green bbox) and focusing on keyboard (blue bbox). Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , farther, front, front\nB. left, , closer, front, front\nC. left, above, farther, front, front\nD. right, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006843/000.jpg", + "spar_bench/sample_006843/001.jpg", + "spar_bench/sample_006843/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6844, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between chair (red bbox) and table (yellow bbox) as observed before and after observer relocating to seating (green bbox) and facing chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , farther, front, front\nB. left, , closer, front, front\nC. left, below, , front, behind\nD. left, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006844/000.jpg", + "spar_bench/sample_006844/001.jpg", + "spar_bench/sample_006844/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6845, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, how does the relative positioning of chair (red bbox) and whiteboard (yellow bbox) evolve after observer moving to table (green bbox) and facing whiteboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, below, closer, front, front\nB. left, below, closer, , front\nC. left, below, , front, front\nD. left, below, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006845/000.jpg", + "spar_bench/sample_006845/001.jpg", + "spar_bench/sample_006845/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6846, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between chair (red bbox) and chair (yellow bbox) from the observer\u2019s view after observer moves to chair (green bbox) and focus on table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, , farther, front, front\nB. right, above, farther, front, \nC. left, , farther, front, front\nD. , below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006846/000.jpg", + "spar_bench/sample_006846/001.jpg", + "spar_bench/sample_006846/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6847, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between sink (red bbox) and tissue box (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to mat (green bbox) and orienting towards ledge (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , below, closer, behind, behind\nB. right, below, closer, front, \nC. , below, , front, front\nD. left, below, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006847/000.jpg", + "spar_bench/sample_006847/001.jpg", + "spar_bench/sample_006847/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6848, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between divider (red bbox) and trash can (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to chair (green bbox) and orienting towards desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, above, closer, front, front\nB. right, , farther, front, front\nC. left, above, farther, front, front\nD. left, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006848/000.jpg", + "spar_bench/sample_006848/001.jpg", + "spar_bench/sample_006848/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6849, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, what changes occur in the spatial positioning of chair (red bbox) relative to whiteboard (yellow bbox) when observer moves to chair (green bbox) and face chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , closer, front, front\nB. right, , farther, front, front\nC. left, , closer, behind, behind\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006849/000.jpg", + "spar_bench/sample_006849/001.jpg", + "spar_bench/sample_006849/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6850, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of toilet paper dispenser (red bbox) relative to toilet (yellow bbox) change when observer relocates to rail (green bbox) and face trash bin (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , closer, front, front\nB. right, , closer, front, front\nC. left, below, closer, front, front\nD. left, below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006850/000.jpg", + "spar_bench/sample_006850/001.jpg", + "spar_bench/sample_006850/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6851, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to chair (green bbox) and orientation towards chair (blue bbox) affect the spatial perception of table (red bbox) and chair (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, closer, front, behind\nB. , below, closer, front, behind\nC. left, above, , front, front\nD. left, , , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006851/000.jpg", + "spar_bench/sample_006851/001.jpg", + "spar_bench/sample_006851/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6852, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of books (red bbox) and books (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to bookshelf (green bbox) and orientation towards bookshelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , closer, front, front\nB. left, , closer, front, behind\nC. right, , closer, front, front\nD. right, below, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006852/000.jpg", + "spar_bench/sample_006852/001.jpg", + "spar_bench/sample_006852/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6853, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between desk (red bbox) and chair (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to chair (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, closer, front, \nB. left, below, closer, front, \nC. right, , farther, front, front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006853/000.jpg", + "spar_bench/sample_006853/001.jpg", + "spar_bench/sample_006853/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6854, + "data_source": "SPAR-Bench", + "question": "Describe the transformation in the spatial relationship between trash can (red bbox) and trash can (yellow bbox) as the observer moves to water cooler (green bbox) and focuses on table (blue bbox). Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, , front, front\nB. right, , farther, front, behind\nC. right, , closer, front, front\nD. right, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006854/000.jpg", + "spar_bench/sample_006854/001.jpg", + "spar_bench/sample_006854/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6855, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between trash can (red bbox) and radiator (yellow bbox) evolve after observer moving to bed (green bbox) and orienting towards desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , closer, front, front\nB. left, , farther, front, front\nC. , above, closer, front, front\nD. left, below, closer, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006855/000.jpg", + "spar_bench/sample_006855/001.jpg", + "spar_bench/sample_006855/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6856, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to lamp (green bbox) and orientation towards keyboard (blue bbox) influence the observer\u2019s view of the spatial relationship between office chair (red bbox) and monitor (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , closer, behind, front\nB. right, below, closer, front, behind\nC. right, , farther, front, front\nD. right, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006856/000.jpg", + "spar_bench/sample_006856/001.jpg", + "spar_bench/sample_006856/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6857, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial relationship between desk (red bbox) and chair (yellow bbox). How does this change from the observer\u2019s perspective after observer moving to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , closer, front, front\nB. right, below, , behind, front\nC. left, above, farther, behind, front\nD. right, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006857/000.jpg", + "spar_bench/sample_006857/001.jpg", + "spar_bench/sample_006857/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6858, + "data_source": "SPAR-Bench", + "question": "Describe the transformation in the spatial relationship between desk (red bbox) and curtain (yellow bbox) as the observer moves to chair (green bbox) and focuses on picture (blue bbox). Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, closer, , front\nB. left, below, closer, front, behind\nC. left, below, farther, front, front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006858/000.jpg", + "spar_bench/sample_006858/001.jpg", + "spar_bench/sample_006858/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6859, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perception of the spatial positioning of backpack (red bbox) and soap dish (yellow bbox) change when observer relocates to cabinet (green bbox) and face bag (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, closer, front, front\nB. left, above, closer, front, \nC. , below, closer, front, front\nD. right, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006859/000.jpg", + "spar_bench/sample_006859/001.jpg", + "spar_bench/sample_006859/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6860, + "data_source": "SPAR-Bench", + "question": "What does the observer initially perceive as the spatial relationship between bed (red bbox) and pillow (yellow bbox)? How does this perception alter upon observer relocating to window (green bbox) and focusing on trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, closer, front, front\nB. right, below, closer, front, front\nC. right, below, , front, behind\nD. right, , closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006860/000.jpg", + "spar_bench/sample_006860/001.jpg", + "spar_bench/sample_006860/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6861, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of paper towel roll (red bbox) and kitchen cabinet (yellow bbox) before and after observer relocating to water pitcher (green bbox) and facing window (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, closer, , front\nB. right, , closer, behind, behind\nC. right, below, closer, behind, behind\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006861/000.jpg", + "spar_bench/sample_006861/001.jpg", + "spar_bench/sample_006861/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6862, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between box (red bbox) and chair (yellow bbox)? What changes when observer moves to clothing rack (green bbox) and face table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, farther, front, \nB. right, , closer, behind, front\nC. left, above, , behind, front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006862/000.jpg", + "spar_bench/sample_006862/001.jpg", + "spar_bench/sample_006862/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6863, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, how does the relative positioning of curtains (red bbox) and laptop (yellow bbox) evolve after observer moving to lamp base (green bbox) and facing desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , closer, front, front\nB. right, , farther, front, front\nC. left, above, farther, , front\nD. right, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006863/000.jpg", + "spar_bench/sample_006863/001.jpg", + "spar_bench/sample_006863/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6864, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the relationship between chair (red bbox) and table (yellow bbox) transform upon observer moving to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, , farther, front, front\nB. , above, closer, behind, front\nC. right, above, farther, front, behind\nD. left, above, farther, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006864/000.jpg", + "spar_bench/sample_006864/001.jpg", + "spar_bench/sample_006864/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6865, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between lamp (red bbox) and laptop (yellow bbox) from the observer\u2019s perspective before and after observer relocating to desk (green bbox) and facing printer (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , below, farther, behind, front\nB. , above, farther, front, front\nC. right, below, , front, front\nD. right, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006865/000.jpg", + "spar_bench/sample_006865/001.jpg", + "spar_bench/sample_006865/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6866, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between chair (red bbox) and file cabinet (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to trash can (green bbox) and orienting towards boxes (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, above, farther, behind, behind\nB. right, , closer, front, front\nC. right, below, closer, front, front\nD. , below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006866/000.jpg", + "spar_bench/sample_006866/001.jpg", + "spar_bench/sample_006866/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6867, + "data_source": "SPAR-Bench", + "question": "What does the observer initially perceive as the spatial relationship between refrigerator (red bbox) and table (yellow bbox)? How does this perception alter upon observer relocating to chair (green bbox) and focusing on trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, farther, , behind\nB. left, , farther, front, front\nC. right, , farther, front, front\nD. , above, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006867/000.jpg", + "spar_bench/sample_006867/001.jpg", + "spar_bench/sample_006867/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6868, + "data_source": "SPAR-Bench", + "question": "Describe the transformation in the spatial relationship between backpack (red bbox) and pillow (yellow bbox) as the observer moves to couch (green bbox) and focuses on end table (blue bbox). Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, closer, , front\nB. left, below, closer, behind, front\nC. right, below, farther, , front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006868/000.jpg", + "spar_bench/sample_006868/001.jpg", + "spar_bench/sample_006868/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6869, + "data_source": "SPAR-Bench", + "question": "How are the relative positions of boxes (red bbox) and piano (yellow bbox) perceived from the observer\u2019s initial viewpoint, and what changes after observer moves to doors (green bbox) and orient towards piano bench (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , closer, front, front\nB. right, , farther, front, front\nC. , below, closer, front, front\nD. left, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006869/000.jpg", + "spar_bench/sample_006869/001.jpg", + "spar_bench/sample_006869/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6870, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between armchair (red bbox) and armchair (yellow bbox) from the observer\u2019s perspective before and after observer relocating to armchair (green bbox) and facing armchair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, farther, front, front\nB. right, below, , behind, front\nC. right, below, closer, , behind\nD. right, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006870/000.jpg", + "spar_bench/sample_006870/001.jpg", + "spar_bench/sample_006870/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6871, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of books (red bbox) and books (yellow bbox) shift in the observer\u2019s view after observer moving to books (green bbox) and focusing on books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, above, farther, front, front\nB. left, , farther, front, front\nC. left, below, farther, front, \nD. , above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006871/000.jpg", + "spar_bench/sample_006871/001.jpg", + "spar_bench/sample_006871/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6872, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to footrest (green bbox) and orientation towards person (blue bbox) affect the spatial perception of couch (red bbox) and armchair (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, , front, behind\nB. right, below, closer, front, front\nC. , above, closer, front, front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006872/000.jpg", + "spar_bench/sample_006872/001.jpg", + "spar_bench/sample_006872/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6873, + "data_source": "SPAR-Bench", + "question": "What does the observer initially perceive as the spatial relationship between projector screen (red bbox) and chair (yellow bbox)? How does this perception alter upon observer relocating to chair (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, closer, front, front\nB. left, , , front, front\nC. right, below, farther, , behind\nD. left, below, farther, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006873/000.jpg", + "spar_bench/sample_006873/001.jpg", + "spar_bench/sample_006873/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6874, + "data_source": "SPAR-Bench", + "question": "What is the spatial arrangement of nightstand (red bbox) and pillow (yellow bbox) in the observer\u2019s view? How does this arrangement change when the observer relocates to lamp (green bbox) and faces pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , closer, front, front\nB. left, below, , behind, front\nC. right, , farther, front, behind\nD. left, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006874/000.jpg", + "spar_bench/sample_006874/001.jpg", + "spar_bench/sample_006874/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6875, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, what is the relationship between dresser (red bbox) and desk (yellow bbox) before moving? How does it evolve after camera moving to 3d center of bed (green bbox) and facing 3d center of fan (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , closer, behind, front\nB. left, above, closer, , front\nC. left, above, closer, front, behind\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006875/000.jpg", + "spar_bench/sample_006875/001.jpg", + "spar_bench/sample_006875/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6876, + "data_source": "SPAR-Bench", + "question": "What are the relative positions of cup (red bbox) and desk (yellow bbox) when viewed by the observer? How do these positions change after the observer moves to monitor (green bbox) and faces shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, , behind, front\nB. left, above, farther, , front\nC. left, , farther, behind, front\nD. left, , closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006876/000.jpg", + "spar_bench/sample_006876/001.jpg", + "spar_bench/sample_006876/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6877, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between lamp (red bbox) and monitor (yellow bbox) as observed before and after observer relocating to clothes (green bbox) and facing box (blue bbox). Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, , behind, front\nB. , above, closer, front, behind\nC. left, , closer, front, front\nD. right, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006877/000.jpg", + "spar_bench/sample_006877/001.jpg", + "spar_bench/sample_006877/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6878, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the relative position of window (red bbox) to shelf (yellow bbox) initially, and how does this position change after observer relocating to drying rack (green bbox) and facing cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, farther, front, front\nB. right, , , front, front\nC. right, , closer, front, front\nD. left, below, farther, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006878/000.jpg", + "spar_bench/sample_006878/001.jpg", + "spar_bench/sample_006878/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6879, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to furnace (green bbox) and orientation towards chair (blue bbox) influence the observer\u2019s view of the spatial relationship between towel (red bbox) and shelf (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , closer, front, front\nB. right, above, farther, behind, front\nC. left, below, , front, front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006879/000.jpg", + "spar_bench/sample_006879/001.jpg", + "spar_bench/sample_006879/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6880, + "data_source": "SPAR-Bench", + "question": "What are the changes in the spatial configuration of box (red bbox) relative to monitor (yellow bbox) as seen by the observer upon observer moving to monitor (green bbox) and focusing on file cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , farther, front, front\nB. right, below, , behind, front\nC. left, above, farther, front, \nD. left, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006880/000.jpg", + "spar_bench/sample_006880/001.jpg", + "spar_bench/sample_006880/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6881, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial configuration of whiteboard (red bbox) and chair (yellow bbox) as seen by the observer? How does this configuration change upon observer moving to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , below, farther, behind, behind\nB. left, above, farther, behind, behind\nC. right, below, , behind, behind\nD. , above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006881/000.jpg", + "spar_bench/sample_006881/001.jpg", + "spar_bench/sample_006881/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6882, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between trash can (red bbox) and trash can (yellow bbox) appear from the observer's perspective? After observer relocating to trash can (green bbox) and orienting towards table (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, below, closer, front, \nB. left, , closer, front, front\nC. left, below, , behind, front\nD. left, below, closer, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006882/000.jpg", + "spar_bench/sample_006882/001.jpg", + "spar_bench/sample_006882/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6883, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, how does the relative positioning of pillow (red bbox) and toilet (yellow bbox) evolve after observer moving to pillow (green bbox) and facing pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , farther, front, front\nB. right, above, closer, front, front\nC. left, below, closer, front, front\nD. left, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006883/000.jpg", + "spar_bench/sample_006883/001.jpg", + "spar_bench/sample_006883/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6884, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between office chair (red bbox) and office chair (yellow bbox) as observed before and after observer relocating to office chair (green bbox) and facing table (blue bbox). Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , farther, behind, front\nB. left, , farther, front, front\nC. left, below, farther, front, \nD. left, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006884/000.jpg", + "spar_bench/sample_006884/001.jpg", + "spar_bench/sample_006884/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6885, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of mini fridge (red bbox) and tube (yellow bbox) initially, and how does this relationship change after observer relocating to box (green bbox) and facing file cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, above, farther, , front\nB. right, , farther, front, front\nC. right, below, farther, front, behind\nD. right, above, closer, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006885/000.jpg", + "spar_bench/sample_006885/001.jpg", + "spar_bench/sample_006885/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6886, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between shelf (red bbox) and monitor (yellow bbox) appear from the observer's perspective? After observer relocating to tissue box (green bbox) and orienting towards bookshelf (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, farther, behind, front\nB. left, , closer, behind, behind\nC. right, , closer, front, behind\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006886/000.jpg", + "spar_bench/sample_006886/001.jpg", + "spar_bench/sample_006886/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6887, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between radiator (red bbox) and shelf (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of trash can (green bbox) and facing office chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, closer, front, front\nB. left, above, , front, front\nC. left, below, closer, front, front\nD. left, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006887/000.jpg", + "spar_bench/sample_006887/001.jpg", + "spar_bench/sample_006887/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6888, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of chair (red bbox) in relation to whiteboard (yellow bbox)? How does this orientation shift after the observer moves to window (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , closer, front, front\nB. right, above, , front, front\nC. right, below, farther, front, front\nD. left, above, closer, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006888/000.jpg", + "spar_bench/sample_006888/001.jpg", + "spar_bench/sample_006888/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6889, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between chair (red bbox) and chair (yellow bbox) from the observer\u2019s view after observer moves to chair (green bbox) and focus on table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, closer, behind, front\nB. left, above, farther, front, front\nC. left, , closer, front, front\nD. , above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006889/000.jpg", + "spar_bench/sample_006889/001.jpg", + "spar_bench/sample_006889/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6890, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, what is the relationship between desk (red bbox) and window (yellow bbox) before moving? How does it evolve after camera moving to 3d center of office chair (green bbox) and facing 3d center of cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, closer, front, front\nB. right, , closer, front, front\nC. right, , farther, front, front\nD. left, below, closer, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006890/000.jpg", + "spar_bench/sample_006890/001.jpg", + "spar_bench/sample_006890/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6891, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between paper towel dispenser (red bbox) and jacket (yellow bbox) appear from the observer's perspective? After observer relocating to toilet paper (green bbox) and orienting towards bathroom counter (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, , closer, front, behind\nB. left, above, closer, , front\nC. left, below, closer, front, front\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006891/000.jpg", + "spar_bench/sample_006891/001.jpg", + "spar_bench/sample_006891/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6892, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of picture (red bbox) relative to sink (yellow bbox) change when observer relocates to bathroom vanity (green bbox) and face picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, farther, front, front\nB. left, , farther, front, front\nC. right, , farther, front, behind\nD. , below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006892/000.jpg", + "spar_bench/sample_006892/001.jpg", + "spar_bench/sample_006892/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6893, + "data_source": "SPAR-Bench", + "question": "Initially, where does keyboard (red bbox) appear in relation to thermostat (yellow bbox) from the observer\u2019s perspective? How does this perception shift after observer moving to person (green bbox) and orienting towards monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, closer, front, front\nB. , below, farther, behind, front\nC. left, , closer, front, front\nD. left, below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006893/000.jpg", + "spar_bench/sample_006893/001.jpg", + "spar_bench/sample_006893/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6894, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between chair (red bbox) and chair (yellow bbox) evolve after observer moving to chair (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, farther, front, \nB. right, below, , front, front\nC. right, , closer, front, front\nD. right, below, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006894/000.jpg", + "spar_bench/sample_006894/001.jpg", + "spar_bench/sample_006894/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6895, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between pillow (red bbox) and nightstand (yellow bbox) from the observer\u2019s perspective before and after observer relocating to pillow (green bbox) and facing pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, closer, front, front\nB. right, above, farther, front, front\nC. right, above, farther, , behind\nD. right, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006895/000.jpg", + "spar_bench/sample_006895/001.jpg", + "spar_bench/sample_006895/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6896, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial positioning of chair (red bbox) relative to chair (yellow bbox) from the observer\u2019s perspective. How does this positioning change after observer moving to chair (green bbox) and orienting towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , farther, behind, front\nB. , above, closer, behind, front\nC. left, above, farther, front, front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006896/000.jpg", + "spar_bench/sample_006896/001.jpg", + "spar_bench/sample_006896/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6897, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, what is the relationship between chair (red bbox) and chair (yellow bbox) before moving? How does it evolve after camera moving to 3d center of table (green bbox) and facing 3d center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, , behind, front\nB. left, below, farther, behind, \nC. left, , farther, front, front\nD. , below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006897/000.jpg", + "spar_bench/sample_006897/001.jpg", + "spar_bench/sample_006897/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6898, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between trash can (red bbox) and mini fridge (yellow bbox) as seen initially and after the observer moves to chair (green bbox) and focuses on chair (blue bbox). Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, farther, front, front\nB. right, below, closer, behind, front\nC. right, below, closer, front, behind\nD. right, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006898/000.jpg", + "spar_bench/sample_006898/001.jpg", + "spar_bench/sample_006898/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6899, + "data_source": "SPAR-Bench", + "question": "How does the relationship between picture (red bbox) and vending machine (yellow bbox) evolve as the observer moves to shelf (green bbox) and orients towards picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, above, closer, front, front\nB. right, above, , behind, front\nC. right, above, closer, front, front\nD. left, above, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006899/000.jpg", + "spar_bench/sample_006899/001.jpg", + "spar_bench/sample_006899/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6900, + "data_source": "SPAR-Bench", + "question": "Describe the positional dynamics of chair (red bbox) relative to chair (yellow bbox) before and after the observer moves to the center of chair (green bbox) and faces chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , closer, behind, front\nB. left, , closer, front, front\nC. left, above, closer, front, \nD. left, above, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006900/000.jpg", + "spar_bench/sample_006900/001.jpg", + "spar_bench/sample_006900/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6901, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of chair (red bbox) and chair (yellow bbox) initially, and how does this relationship change after observer relocating to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , below, farther, front, front\nB. left, above, closer, behind, front\nC. left, , closer, front, front\nD. left, below, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006901/000.jpg", + "spar_bench/sample_006901/001.jpg", + "spar_bench/sample_006901/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6902, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of mat (red bbox) and bookshelf (yellow bbox) before and after observer relocating to jacket (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , farther, front, front\nB. , above, closer, front, front\nC. right, above, closer, , behind\nD. right, above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006902/000.jpg", + "spar_bench/sample_006902/001.jpg", + "spar_bench/sample_006902/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6903, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between table (red bbox) and chair (yellow bbox) from the observer\u2019s view after observer moves to table (green bbox) and focus on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , farther, front, front\nB. , below, farther, front, front\nC. right, above, closer, , behind\nD. left, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006903/000.jpg", + "spar_bench/sample_006903/001.jpg", + "spar_bench/sample_006903/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6904, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, what is the relationship between chair (red bbox) and telephone (yellow bbox) before moving? How does it evolve after camera moving to 3d center of book (green bbox) and facing 3d center of keyboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, closer, front, behind\nB. left, , closer, front, front\nC. right, , closer, front, front\nD. right, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006904/000.jpg", + "spar_bench/sample_006904/001.jpg", + "spar_bench/sample_006904/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6905, + "data_source": "SPAR-Bench", + "question": "Describe the spatial configuration of ottoman (red bbox) relative to chair (yellow bbox) as initially seen by the observer and how this changes after observer moving to armchair (green bbox) and facing desk (blue bbox). Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, closer, front, front\nB. left, , closer, front, \nC. right, , closer, behind, front\nD. left, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006905/000.jpg", + "spar_bench/sample_006905/001.jpg", + "spar_bench/sample_006905/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6906, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial positioning of plant (red bbox) relative to tv stand (yellow bbox) from the observer\u2019s perspective. How does this positioning change after observer moving to coffee table (green bbox) and orienting towards guitar (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, , behind, behind\nB. right, above, closer, front, front\nC. left, , closer, front, front\nD. left, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006906/000.jpg", + "spar_bench/sample_006906/001.jpg", + "spar_bench/sample_006906/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6907, + "data_source": "SPAR-Bench", + "question": "Describe the spatial configuration of chair (red bbox) relative to backpack (yellow bbox) as initially seen by the observer and how this changes after observer moving to chair (green bbox) and facing chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, , farther, front, front\nB. right, , farther, behind, behind\nC. left, , farther, front, behind\nD. left, below, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006907/000.jpg", + "spar_bench/sample_006907/001.jpg", + "spar_bench/sample_006907/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6908, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between chair (red bbox) and chair (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of chair (green bbox) and facing chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , closer, behind, front\nB. left, , closer, front, front\nC. left, below, closer, behind, front\nD. right, above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006908/000.jpg", + "spar_bench/sample_006908/001.jpg", + "spar_bench/sample_006908/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6909, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial positioning of books (red bbox) relative to books (yellow bbox) from the observer\u2019s perspective. How does this positioning change after observer moving to books (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, farther, front, front\nB. right, below, closer, behind, \nC. right, below, , front, front\nD. right, , farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006909/000.jpg", + "spar_bench/sample_006909/001.jpg", + "spar_bench/sample_006909/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6910, + "data_source": "SPAR-Bench", + "question": "Describe the transformation in the spatial relationship between shower door (red bbox) and towels (yellow bbox) as the observer moves to trash can (green bbox) and focuses on toilet paper (blue bbox). Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, closer, behind, \nB. right, , farther, front, front\nC. left, above, , front, behind\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006910/000.jpg", + "spar_bench/sample_006910/001.jpg", + "spar_bench/sample_006910/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6911, + "data_source": "SPAR-Bench", + "question": "Before moving to chair (green bbox), what is the observer\u2019s perspective of the relationship between board (red bbox) and window (yellow bbox)? How does this perspective shift after observer relocating and orienting towards whiteboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, below, farther, behind, behind\nB. right, , farther, front, front\nC. left, , closer, behind, front\nD. left, above, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006911/000.jpg", + "spar_bench/sample_006911/001.jpg", + "spar_bench/sample_006911/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6912, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between kitchen counter (red bbox) and sink (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of paper towel dispenser (green bbox) and facing refrigerator (blue bbox). Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, , closer, front, front\nB. left, above, closer, , behind\nC. left, below, , front, front\nD. right, above, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006912/000.jpg", + "spar_bench/sample_006912/001.jpg", + "spar_bench/sample_006912/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6913, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of sign (red bbox) and kitchen counter (yellow bbox) initially, and how does this relationship change after observer relocating to oven (green bbox) and facing sign (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. , above, closer, front, front\nB. left, above, closer, behind, front\nC. right, above, farther, front, front\nD. right, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006913/000.jpg", + "spar_bench/sample_006913/001.jpg", + "spar_bench/sample_006913/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6914, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between office chair (red bbox) and chair (yellow bbox) as seen initially and after the observer moves to table (green bbox) and focuses on office chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, closer, front, behind\nB. right, , closer, front, front\nC. right, above, farther, front, \nD. left, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006914/000.jpg", + "spar_bench/sample_006914/001.jpg", + "spar_bench/sample_006914/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6915, + "data_source": "SPAR-Bench", + "question": "Initially, what is the observer\u2019s understanding of the relationship between counter (red bbox) and fire extinguisher (yellow bbox)? How does this understanding change after observer moving to window (green bbox) and orienting towards washing machines (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, farther, front, front\nB. , below, closer, behind, front\nC. right, below, farther, front, front\nD. right, below, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006915/000.jpg", + "spar_bench/sample_006915/001.jpg", + "spar_bench/sample_006915/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6916, + "data_source": "SPAR-Bench", + "question": "Describe the spatial configuration of toilet paper (red bbox) relative to toilet paper (yellow bbox) as initially seen by the observer and how this changes after observer moving to window (green bbox) and facing toilet (blue bbox). Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , closer, front, behind\nB. right, above, farther, front, front\nC. right, above, farther, , front\nD. right, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006916/000.jpg", + "spar_bench/sample_006916/001.jpg", + "spar_bench/sample_006916/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6917, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between kitchen cabinets (red bbox) and chair (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of chair (green bbox) and facing dining table (blue bbox). Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , above, closer, behind, behind\nB. left, above, farther, front, front\nC. right, , farther, behind, front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006917/000.jpg", + "spar_bench/sample_006917/001.jpg", + "spar_bench/sample_006917/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6918, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial relationship between trash can (red bbox) and towel (yellow bbox). How does this change from the observer\u2019s perspective after observer moving to towel (green bbox) and facing toilet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , closer, front, front\nB. left, , closer, behind, front\nC. right, above, closer, front, front\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006918/000.jpg", + "spar_bench/sample_006918/001.jpg", + "spar_bench/sample_006918/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6919, + "data_source": "SPAR-Bench", + "question": "What does the observer initially perceive as the spatial relationship between chair (red bbox) and trash can (yellow bbox)? How does this perception alter upon observer relocating to furniture (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , farther, front, front\nB. , below, farther, behind, front\nC. right, above, closer, , behind\nD. left, above, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006919/000.jpg", + "spar_bench/sample_006919/001.jpg", + "spar_bench/sample_006919/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6920, + "data_source": "SPAR-Bench", + "question": "Describe the relationship between laundry hamper (red bbox) and shoes (yellow bbox) as initially seen by the observer and how it changes upon observer moving to trash can (green bbox) and focusing on chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, , front, front\nB. right, above, , behind, front\nC. , above, farther, front, front\nD. right, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006920/000.jpg", + "spar_bench/sample_006920/001.jpg", + "spar_bench/sample_006920/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6921, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of picture (red bbox) and picture (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to couch (green bbox) and orientation towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, closer, , behind\nB. left, below, closer, , front\nC. right, below, farther, front, behind\nD. right, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006921/000.jpg", + "spar_bench/sample_006921/001.jpg", + "spar_bench/sample_006921/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6922, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between monitor (red bbox) and monitor (yellow bbox) from the observer\u2019s perspective before and after observer relocating to monitor (green bbox) and facing monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, closer, front, \nB. , above, closer, front, front\nC. left, , closer, front, front\nD. , below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006922/000.jpg", + "spar_bench/sample_006922/001.jpg", + "spar_bench/sample_006922/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6923, + "data_source": "SPAR-Bench", + "question": "What are the changes in the spatial configuration of chair (red bbox) relative to table (yellow bbox) as seen by the observer upon observer moving to chair (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , below, closer, front, front\nB. right, , , front, front\nC. left, , closer, behind, front\nD. left, below, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006923/000.jpg", + "spar_bench/sample_006923/001.jpg", + "spar_bench/sample_006923/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6924, + "data_source": "SPAR-Bench", + "question": "What are the changes in the spatial configuration of stool (red bbox) relative to bathroom vanity (yellow bbox) as seen by the observer upon observer moving to picture (green bbox) and focusing on mat (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, , farther, front, front\nB. right, , farther, front, behind\nC. right, above, closer, , front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006924/000.jpg", + "spar_bench/sample_006924/001.jpg", + "spar_bench/sample_006924/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6925, + "data_source": "SPAR-Bench", + "question": "How are cabinet (red bbox) and bag (yellow bbox) positioned from the observer\u2019s perspective? After observer relocating to backpack (green bbox) and orienting towards suitcase (blue bbox), what changes occur? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , farther, front, front\nB. left, , closer, front, behind\nC. left, above, farther, behind, \nD. left, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006925/000.jpg", + "spar_bench/sample_006925/001.jpg", + "spar_bench/sample_006925/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6926, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between chair (red bbox) and window (yellow bbox) from the observer\u2019s view after observer moves to chair (green bbox) and focus on board (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, closer, behind, \nB. right, , closer, behind, front\nC. left, above, farther, , behind\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006926/000.jpg", + "spar_bench/sample_006926/001.jpg", + "spar_bench/sample_006926/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6927, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between chair (red bbox) and chair (yellow bbox)? What changes when observer moves to chair (green bbox) and face chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, , front, front\nB. left, below, farther, , behind\nC. left, above, farther, , front\nD. left, , , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006927/000.jpg", + "spar_bench/sample_006927/001.jpg", + "spar_bench/sample_006927/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6928, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is chair (red bbox) located relative to table (yellow bbox)? How does this spatial relationship change after observer moving to chair (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , farther, front, front\nB. right, below, farther, front, behind\nC. left, below, closer, front, \nD. left, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006928/000.jpg", + "spar_bench/sample_006928/001.jpg", + "spar_bench/sample_006928/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6929, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to books (green bbox) and orientation towards books (blue bbox) influence the observer\u2019s view of the spatial relationship between armchair (red bbox) and books (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, below, farther, front, front\nB. , below, farther, behind, front\nC. right, below, farther, front, behind\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006929/000.jpg", + "spar_bench/sample_006929/001.jpg", + "spar_bench/sample_006929/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6930, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of monitor (red bbox) relative to monitor (yellow bbox) change when observer relocates to monitor (green bbox) and face desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , above, farther, front, front\nB. right, , closer, front, front\nC. right, below, closer, behind, behind\nD. , above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006930/000.jpg", + "spar_bench/sample_006930/001.jpg", + "spar_bench/sample_006930/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6931, + "data_source": "SPAR-Bench", + "question": "How are stuffed animal (red bbox) and desk (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to headphones (green bbox) and orienting towards dresser (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, closer, front, \nB. right, above, farther, front, front\nC. right, below, farther, front, \nD. right, above, farther, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006931/000.jpg", + "spar_bench/sample_006931/001.jpg", + "spar_bench/sample_006931/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6932, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of sink (red bbox) and kitchen cabinets (yellow bbox) initially, and how does this relationship change after observer relocating to kitchen cabinets (green bbox) and facing sign (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , farther, front, front\nB. right, above, farther, , front\nC. right, below, , behind, front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006932/000.jpg", + "spar_bench/sample_006932/001.jpg", + "spar_bench/sample_006932/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6933, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of chair (red bbox) in relation to cabinet (yellow bbox)? How does this orientation shift after the observer moves to book (green bbox) and faces pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, , behind, front\nB. left, below, closer, front, \nC. left, below, closer, , behind\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006933/000.jpg", + "spar_bench/sample_006933/001.jpg", + "spar_bench/sample_006933/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6934, + "data_source": "SPAR-Bench", + "question": "How are chair (red bbox) and chair (yellow bbox) positioned from the observer\u2019s perspective? After observer relocating to chair (green bbox) and orienting towards cabinet (blue bbox), what changes occur? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, , closer, front, behind\nB. , above, closer, front, front\nC. left, above, closer, front, behind\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006934/000.jpg", + "spar_bench/sample_006934/001.jpg", + "spar_bench/sample_006934/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6935, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between chair (red bbox) and chair (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to window (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , farther, behind, front\nB. left, below, closer, , behind\nC. right, above, farther, , front\nD. right, below, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006935/000.jpg", + "spar_bench/sample_006935/001.jpg", + "spar_bench/sample_006935/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6936, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of keyboard (red bbox) relative to monitor (yellow bbox) change when observer relocates to monitor (green bbox) and face monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, below, farther, , front\nB. right, above, , behind, behind\nC. right, below, , front, front\nD. right, above, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006936/000.jpg", + "spar_bench/sample_006936/001.jpg", + "spar_bench/sample_006936/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6937, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the relationship between trash can (red bbox) and printer (yellow bbox) transform upon observer moving to copier (green bbox) and facing copier (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, below, farther, front, behind\nB. right, below, farther, front, \nC. right, below, , behind, front\nD. left, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006937/000.jpg", + "spar_bench/sample_006937/001.jpg", + "spar_bench/sample_006937/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6938, + "data_source": "SPAR-Bench", + "question": "Initially, what is the observer\u2019s understanding of the relationship between stove (red bbox) and towel (yellow bbox)? How does this understanding change after observer moving to pitcher (green bbox) and orienting towards picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, below, closer, , front\nB. left, , farther, behind, front\nC. right, above, farther, behind, front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006938/000.jpg", + "spar_bench/sample_006938/001.jpg", + "spar_bench/sample_006938/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6939, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial alignment of coffee table (red bbox) and armchair (yellow bbox) from the observer\u2019s perspective? How does it change after observer moving to armchair (green bbox) and facing armchair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, , closer, front, behind\nB. left, above, farther, front, \nC. right, above, closer, front, front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006939/000.jpg", + "spar_bench/sample_006939/001.jpg", + "spar_bench/sample_006939/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6940, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between chair (red bbox) and chair (yellow bbox) as seen initially and after the observer moves to window (green bbox) and focuses on chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, closer, front, \nB. left, above, closer, front, front\nC. left, above, farther, front, \nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006940/000.jpg", + "spar_bench/sample_006940/001.jpg", + "spar_bench/sample_006940/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6941, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the relative position of window (red bbox) to picture (yellow bbox) initially, and how does this position change after observer relocating to counter (green bbox) and facing washing machines (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, farther, , behind\nB. left, , farther, front, behind\nC. right, , closer, behind, front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006941/000.jpg", + "spar_bench/sample_006941/001.jpg", + "spar_bench/sample_006941/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6942, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between sink (red bbox) and chair (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to desk (green bbox) and orienting towards recycling bin (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, , front, front\nB. right, above, closer, behind, front\nC. left, above, farther, front, front\nD. left, above, , behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006942/000.jpg", + "spar_bench/sample_006942/001.jpg", + "spar_bench/sample_006942/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6943, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between monitor (red bbox) and trash can (yellow bbox) from the observer\u2019s view after observer moves to suitcase (green bbox) and focus on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, farther, front, front\nB. left, below, , front, front\nC. left, above, , front, front\nD. , above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006943/000.jpg", + "spar_bench/sample_006943/001.jpg", + "spar_bench/sample_006943/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6944, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, how does the relative positioning of shoes (red bbox) and cabinet (yellow bbox) evolve after observer moving to backpack (green bbox) and facing suitcase (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, closer, front, front\nB. left, below, , front, front\nC. right, below, , front, front\nD. , above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006944/000.jpg", + "spar_bench/sample_006944/001.jpg", + "spar_bench/sample_006944/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6945, + "data_source": "SPAR-Bench", + "question": "Describe the spatial configuration of trash can (red bbox) relative to recycling bin (yellow bbox) as initially seen by the observer and how this changes after observer moving to chair (green bbox) and facing window (blue bbox). Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, below, , front, behind\nB. left, below, farther, front, \nC. right, , closer, front, front\nD. right, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006945/000.jpg", + "spar_bench/sample_006945/001.jpg", + "spar_bench/sample_006945/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6946, + "data_source": "SPAR-Bench", + "question": "Describe the spatial configuration of yoga mat (red bbox) relative to desk (yellow bbox) as initially seen by the observer and how this changes after observer moving to trash can (green bbox) and facing armchair (blue bbox). Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, closer, , front\nB. left, above, farther, front, front\nC. right, below, closer, , front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006946/000.jpg", + "spar_bench/sample_006946/001.jpg", + "spar_bench/sample_006946/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6947, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial arrangement of picture (red bbox) and stool (yellow bbox) differ after observer moving to table (green bbox) and facing picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, , behind, behind\nB. right, , farther, front, behind\nC. , below, farther, front, behind\nD. right, below, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006947/000.jpg", + "spar_bench/sample_006947/001.jpg", + "spar_bench/sample_006947/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6948, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, how does the relative positioning of monitor (red bbox) and monitor (yellow bbox) evolve after observer moving to book (green bbox) and facing office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , closer, front, front\nB. right, , closer, behind, behind\nC. left, , closer, front, front\nD. left, above, closer, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006948/000.jpg", + "spar_bench/sample_006948/001.jpg", + "spar_bench/sample_006948/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6949, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of chair (red bbox) relative to tv (yellow bbox) change when observer relocates to radiator (green bbox) and face chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, closer, , front\nB. left, below, farther, front, behind\nC. left, below, closer, front, front\nD. , below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006949/000.jpg", + "spar_bench/sample_006949/001.jpg", + "spar_bench/sample_006949/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6950, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the relative position of chair (red bbox) to chair (yellow bbox) initially, and how does this position change after observer relocating to chair (green bbox) and facing dining table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, farther, front, front\nB. left, above, , behind, behind\nC. left, above, farther, , behind\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006950/000.jpg", + "spar_bench/sample_006950/001.jpg", + "spar_bench/sample_006950/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6951, + "data_source": "SPAR-Bench", + "question": "What are the changes in the spatial configuration of desk (red bbox) relative to shelf (yellow bbox) as seen by the observer upon observer moving to lamp (green bbox) and focusing on laptop (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , farther, behind, front\nB. left, below, closer, behind, \nC. right, below, farther, front, front\nD. right, below, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006951/000.jpg", + "spar_bench/sample_006951/001.jpg", + "spar_bench/sample_006951/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6952, + "data_source": "SPAR-Bench", + "question": "How are the relative positions of shelf (red bbox) and shelf (yellow bbox) perceived from the observer\u2019s initial viewpoint, and what changes after observer moves to cabinet (green bbox) and orient towards shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , farther, front, front\nB. right, below, farther, front, \nC. left, above, farther, front, behind\nD. right, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006952/000.jpg", + "spar_bench/sample_006952/001.jpg", + "spar_bench/sample_006952/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6953, + "data_source": "SPAR-Bench", + "question": "Before moving to chair (green bbox), what is the observer\u2019s perspective of the relationship between office chair (red bbox) and board (yellow bbox)? How does this perspective shift after observer relocating and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , farther, front, behind\nB. right, , closer, front, front\nC. right, below, , behind, front\nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006953/000.jpg", + "spar_bench/sample_006953/001.jpg", + "spar_bench/sample_006953/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6954, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between kitchen apron (red bbox) and picture (yellow bbox) as seen initially and after the observer moves to pitcher (green bbox) and focuses on stove (blue bbox). Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , farther, behind, front\nB. left, below, closer, front, behind\nC. right, below, closer, , front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006954/000.jpg", + "spar_bench/sample_006954/001.jpg", + "spar_bench/sample_006954/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6955, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial relationship between trash can (red bbox) and chair (yellow bbox). How does this change from the observer\u2019s perspective after observer moving to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, , front, front\nB. left, below, farther, front, front\nC. left, below, closer, front, front\nD. , below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006955/000.jpg", + "spar_bench/sample_006955/001.jpg", + "spar_bench/sample_006955/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6956, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the relationship between towel (red bbox) and sink (yellow bbox) transform upon observer moving to soap dish (green bbox) and facing trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, , behind, front\nB. left, above, closer, behind, behind\nC. left, above, farther, front, front\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006956/000.jpg", + "spar_bench/sample_006956/001.jpg", + "spar_bench/sample_006956/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6957, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of table (red bbox) and backpack (yellow bbox) before and after observer relocating to chair (green bbox) and facing folded chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, farther, , behind\nB. right, below, farther, , front\nC. left, , farther, front, behind\nD. right, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006957/000.jpg", + "spar_bench/sample_006957/001.jpg", + "spar_bench/sample_006957/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6958, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of cabinet (red bbox) in relation to window (yellow bbox)? How does this orientation shift after the observer moves to cabinet (green bbox) and faces paper cutter (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, closer, front, front\nB. left, below, closer, front, front\nC. , below, farther, front, behind\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006958/000.jpg", + "spar_bench/sample_006958/001.jpg", + "spar_bench/sample_006958/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6959, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of window (red bbox) and folded table (yellow bbox) shift when the observer moves to board (green bbox) and focuses on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, farther, behind, behind\nB. , below, farther, behind, front\nC. right, above, farther, front, front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006959/000.jpg", + "spar_bench/sample_006959/001.jpg", + "spar_bench/sample_006959/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6960, + "data_source": "SPAR-Bench", + "question": "What are the changes in the spatial configuration of chair (red bbox) relative to chair (yellow bbox) as seen by the observer upon observer moving to chair (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , closer, front, front\nB. right, below, farther, behind, front\nC. right, , farther, front, front\nD. right, above, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006960/000.jpg", + "spar_bench/sample_006960/001.jpg", + "spar_bench/sample_006960/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6961, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between desk (red bbox) and shelf (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of paper (green bbox) and facing chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, closer, , behind\nB. left, above, closer, front, behind\nC. , below, farther, front, front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006961/000.jpg", + "spar_bench/sample_006961/001.jpg", + "spar_bench/sample_006961/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6962, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial positioning of table (red bbox) relative to chair (yellow bbox) from the observer\u2019s perspective. How does this positioning change after observer moving to chair (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, below, farther, front, front\nB. left, below, farther, behind, front\nC. right, below, farther, front, front\nD. right, below, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006962/000.jpg", + "spar_bench/sample_006962/001.jpg", + "spar_bench/sample_006962/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6963, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, what changes occur in the spatial positioning of office chair (red bbox) relative to monitor (yellow bbox) when observer moves to office chair (green bbox) and face lamp (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , below, farther, behind, front\nB. left, , farther, front, front\nC. right, below, , behind, front\nD. right, below, farther, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006963/000.jpg", + "spar_bench/sample_006963/001.jpg", + "spar_bench/sample_006963/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6964, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of monitor (red bbox) and monitor (yellow bbox) shift in the observer\u2019s view after observer moving to book (green bbox) and focusing on monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , farther, front, front\nB. right, below, farther, front, front\nC. right, below, farther, , behind\nD. left, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006964/000.jpg", + "spar_bench/sample_006964/001.jpg", + "spar_bench/sample_006964/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6965, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of toilet (red bbox) and ledge (yellow bbox) before and after observer relocating to soap dish (green bbox) and facing tissue box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. , below, closer, behind, behind\nB. right, below, farther, front, front\nC. right, below, closer, front, \nD. right, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006965/000.jpg", + "spar_bench/sample_006965/001.jpg", + "spar_bench/sample_006965/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6966, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between books (red bbox) and table (yellow bbox)? How does this perception alter after observer moving to books (green bbox) and facing books (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, closer, front, \nB. left, above, closer, front, front\nC. right, below, closer, front, front\nD. right, above, farther, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006966/000.jpg", + "spar_bench/sample_006966/001.jpg", + "spar_bench/sample_006966/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6967, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is chair (red bbox) located relative to chair (yellow bbox)? How does this spatial relationship change after observer moving to chair (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , farther, front, front\nB. right, above, farther, behind, behind\nC. left, above, closer, front, front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006967/000.jpg", + "spar_bench/sample_006967/001.jpg", + "spar_bench/sample_006967/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6968, + "data_source": "SPAR-Bench", + "question": "Before moving to chair (green bbox), what is the observer\u2019s perspective of the relationship between table (red bbox) and chair (yellow bbox)? How does this perspective shift after observer relocating and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , closer, front, front\nB. right, above, closer, front, front\nC. , above, farther, behind, front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006968/000.jpg", + "spar_bench/sample_006968/001.jpg", + "spar_bench/sample_006968/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6969, + "data_source": "SPAR-Bench", + "question": "Describe the relationship between refrigerator (red bbox) and coffee maker (yellow bbox) as initially seen by the observer and how it changes upon observer moving to bucket (green bbox) and focusing on table (blue bbox). Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, , front, behind\nB. left, , closer, front, front\nC. left, below, closer, , front\nD. left, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006969/000.jpg", + "spar_bench/sample_006969/001.jpg", + "spar_bench/sample_006969/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6970, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial configuration of chair (red bbox) and chair (yellow bbox) as seen by the observer? How does this configuration change upon observer moving to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, farther, behind, \nB. , below, closer, behind, behind\nC. right, , farther, front, front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006970/000.jpg", + "spar_bench/sample_006970/001.jpg", + "spar_bench/sample_006970/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6971, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between recycling bin (red bbox) and desk (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to window (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , farther, front, behind\nB. left, , closer, front, front\nC. left, above, , front, behind\nD. right, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006971/000.jpg", + "spar_bench/sample_006971/001.jpg", + "spar_bench/sample_006971/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6972, + "data_source": "SPAR-Bench", + "question": "How does the spatial interaction between keyboard (red bbox) and chair (yellow bbox) change from the observer\u2019s perspective after observer moving to whiteboard (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, , farther, front, behind\nB. left, , farther, front, front\nC. , above, closer, behind, behind\nD. left, above, closer, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006972/000.jpg", + "spar_bench/sample_006972/001.jpg", + "spar_bench/sample_006972/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6973, + "data_source": "SPAR-Bench", + "question": "Before moving to book (green bbox), what is the observer\u2019s perspective of the relationship between window (red bbox) and monitor (yellow bbox)? How does this perspective shift after observer relocating and orienting towards desk (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. , below, closer, front, front\nB. left, , farther, front, front\nC. left, above, farther, front, front\nD. left, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006973/000.jpg", + "spar_bench/sample_006973/001.jpg", + "spar_bench/sample_006973/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6974, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perception of the spatial relationship between chair (red bbox) and chair (yellow bbox) when observer relocates to chair (green bbox) and face vacuum cleaner (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , above, farther, front, front\nB. left, , farther, front, front\nC. left, above, farther, behind, front\nD. left, above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006974/000.jpg", + "spar_bench/sample_006974/001.jpg", + "spar_bench/sample_006974/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6975, + "data_source": "SPAR-Bench", + "question": "How does the relationship between chair (red bbox) and chair (yellow bbox) evolve as the observer moves to kitchen counter (green bbox) and orients towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. right, below, closer, behind, front\nB. left, above, , front, front\nC. right, below, farther, front, \nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006975/000.jpg", + "spar_bench/sample_006975/001.jpg", + "spar_bench/sample_006975/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6976, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, what changes occur in the spatial positioning of chair (red bbox) relative to chair (yellow bbox) when observer moves to chair (green bbox) and face cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , above, farther, behind, front\nB. right, , farther, front, front\nC. right, above, farther, , front\nD. right, above, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006976/000.jpg", + "spar_bench/sample_006976/001.jpg", + "spar_bench/sample_006976/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6977, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perception of the spatial relationship between chair (red bbox) and chair (yellow bbox) when observer relocates to chair (green bbox) and face window (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, above, farther, behind, front\nB. , below, closer, front, front\nC. right, , closer, front, front\nD. left, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006977/000.jpg", + "spar_bench/sample_006977/001.jpg", + "spar_bench/sample_006977/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6978, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of curtain (red bbox) and chair (yellow bbox) before and after observer relocating to tv (green bbox) and facing shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , closer, front, behind\nB. right, above, closer, front, front\nC. left, above, closer, front, front\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006978/000.jpg", + "spar_bench/sample_006978/001.jpg", + "spar_bench/sample_006978/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6979, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of chair (red bbox) and chair (yellow bbox) before and after observer relocating to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , farther, front, front\nB. right, , farther, front, front\nC. left, below, farther, , behind\nD. , above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006979/000.jpg", + "spar_bench/sample_006979/001.jpg", + "spar_bench/sample_006979/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6980, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between tv (red bbox) and chair (yellow bbox) evolve after observer moving to table (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, below, closer, front, front\nB. right, above, farther, front, front\nC. right, above, farther, behind, front\nD. right, below, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006980/000.jpg", + "spar_bench/sample_006980/001.jpg", + "spar_bench/sample_006980/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6981, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between chair (red bbox) and window (yellow bbox) evolve after observer moving to chair (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, farther, front, front\nB. left, below, closer, front, front\nC. left, above, closer, , front\nD. left, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006981/000.jpg", + "spar_bench/sample_006981/001.jpg", + "spar_bench/sample_006981/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6982, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial positioning of trash can (red bbox) relative to monitor (yellow bbox) from the observer\u2019s perspective. How does this positioning change after observer moving to book (green bbox) and orienting towards office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. , below, closer, front, front\nB. right, below, farther, front, front\nC. right, , farther, front, front\nD. right, above, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006982/000.jpg", + "spar_bench/sample_006982/001.jpg", + "spar_bench/sample_006982/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6983, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial arrangement of pillow (red bbox) and bed (yellow bbox) differ after observer moving to bag (green bbox) and facing pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , closer, front, front\nB. left, above, closer, , front\nC. left, above, farther, behind, behind\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006983/000.jpg", + "spar_bench/sample_006983/001.jpg", + "spar_bench/sample_006983/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6984, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to chair (green bbox) and orientation towards chair (blue bbox) influence the observer\u2019s view of the spatial relationship between desk (red bbox) and chair (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, , closer, front, behind\nB. right, , closer, front, front\nC. right, , farther, front, front\nD. right, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006984/000.jpg", + "spar_bench/sample_006984/001.jpg", + "spar_bench/sample_006984/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6985, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perception of the spatial positioning of armchair (red bbox) and chair (yellow bbox) change when observer relocates to blackboard (green bbox) and face table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , farther, front, front\nB. left, , farther, behind, front\nC. right, , closer, front, front\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006985/000.jpg", + "spar_bench/sample_006985/001.jpg", + "spar_bench/sample_006985/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6986, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of clothing rack (red bbox) relative to box (yellow bbox) change when observer relocates to box (green bbox) and face curtain (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , above, farther, front, front\nB. left, , farther, front, front\nC. left, below, farther, , behind\nD. right, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006986/000.jpg", + "spar_bench/sample_006986/001.jpg", + "spar_bench/sample_006986/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6987, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between chair (red bbox) and chair (yellow bbox) from the observer\u2019s view after observer moves to chair (green bbox) and focus on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, closer, front, front\nB. left, above, , front, front\nC. right, , closer, front, front\nD. , above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006987/000.jpg", + "spar_bench/sample_006987/001.jpg", + "spar_bench/sample_006987/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6988, + "data_source": "SPAR-Bench", + "question": "Describe the relationship between kitchen cabinet (red bbox) and kitchen island (yellow bbox) as initially seen by the observer and how it changes upon observer moving to dishwasher (green bbox) and focusing on sink (blue bbox). Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, , front, front\nB. right, , , front, front\nC. right, above, , behind, front\nD. right, above, closer, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006988/000.jpg", + "spar_bench/sample_006988/001.jpg", + "spar_bench/sample_006988/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6989, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial arrangement of books (red bbox) and books (yellow bbox) differ after observer moving to books (green bbox) and facing couch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, closer, , behind\nB. , below, closer, front, front\nC. left, , closer, front, front\nD. right, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006989/000.jpg", + "spar_bench/sample_006989/001.jpg", + "spar_bench/sample_006989/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6990, + "data_source": "SPAR-Bench", + "question": "Describe the relationship between trash can (red bbox) and desk (yellow bbox) as initially seen by the observer and how it changes upon observer moving to keyboard (green bbox) and focusing on monitor (blue bbox). Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, closer, front, front\nB. left, below, farther, front, front\nC. left, below, farther, behind, front\nD. left, below, , behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006990/000.jpg", + "spar_bench/sample_006990/001.jpg", + "spar_bench/sample_006990/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6991, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial positioning of chair (red bbox) relative to bag (yellow bbox) from the observer\u2019s perspective. How does this positioning change after observer moving to bag (green bbox) and orienting towards trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, , farther, front, front\nB. , below, farther, behind, front\nC. left, above, farther, , front\nD. left, below, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006991/000.jpg", + "spar_bench/sample_006991/001.jpg", + "spar_bench/sample_006991/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6992, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between backpack (red bbox) and shoes (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to towel (green bbox) and orienting towards cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, farther, behind, front\nB. , above, farther, front, front\nC. right, below, closer, front, behind\nD. left, above, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006992/000.jpg", + "spar_bench/sample_006992/001.jpg", + "spar_bench/sample_006992/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6993, + "data_source": "SPAR-Bench", + "question": "Describe the transformation in the spatial relationship between table (red bbox) and chair (yellow bbox) as the observer moves to column (green bbox) and focuses on chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, farther, front, front\nB. , below, farther, behind, front\nC. left, below, closer, front, front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006993/000.jpg", + "spar_bench/sample_006993/001.jpg", + "spar_bench/sample_006993/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6994, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the relationship between chair (red bbox) and chair (yellow bbox) transform upon observer moving to window (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, , behind, behind\nB. left, below, farther, , front\nC. left, , farther, behind, front\nD. right, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006994/000.jpg", + "spar_bench/sample_006994/001.jpg", + "spar_bench/sample_006994/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6995, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is toilet paper (red bbox) located relative to paper towel dispenser (yellow bbox)? How does this spatial relationship change after observer moving to bathroom counter (green bbox) and focusing on toilet paper rolls (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, , behind, front\nB. right, , farther, front, front\nC. right, below, , front, front\nD. right, above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006995/000.jpg", + "spar_bench/sample_006995/001.jpg", + "spar_bench/sample_006995/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6996, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of chair (red bbox) and chair (yellow bbox) before and after observer relocating to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , farther, front, front\nB. left, above, farther, behind, front\nC. right, , farther, behind, front\nD. left, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006996/000.jpg", + "spar_bench/sample_006996/001.jpg", + "spar_bench/sample_006996/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6997, + "data_source": "SPAR-Bench", + "question": "What are the relative positions of picture (red bbox) and table (yellow bbox) when viewed by the observer? How do these positions change after the observer moves to monitor (green bbox) and faces chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, above, closer, front, front\nB. right, above, closer, , front\nC. , above, closer, front, front\nD. left, above, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006997/000.jpg", + "spar_bench/sample_006997/001.jpg", + "spar_bench/sample_006997/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6998, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between couch (red bbox) and armchair (yellow bbox)? What changes when observer moves to end table (green bbox) and face end table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , farther, behind, behind\nB. left, , closer, front, front\nC. left, , farther, front, behind\nD. left, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006998/000.jpg", + "spar_bench/sample_006998/001.jpg", + "spar_bench/sample_006998/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 6999, + "data_source": "SPAR-Bench", + "question": "Initially, what is the observer\u2019s understanding of the relationship between monitor (red bbox) and bowl (yellow bbox)? How does this understanding change after observer moving to shelf (green bbox) and orienting towards dresser (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. right, , , front, front\nB. right, above, , front, behind\nC. left, below, , front, front\nD. right, below, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_006999/000.jpg", + "spar_bench/sample_006999/001.jpg", + "spar_bench/sample_006999/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7000, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial alignment of monitor (red bbox) and book (yellow bbox) from the observer\u2019s perspective? How does it change after observer moving to telephone (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, , farther, front, front\nB. left, below, , behind, front\nC. left, above, , behind, behind\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007000/000.jpg", + "spar_bench/sample_007000/001.jpg", + "spar_bench/sample_007000/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7001, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between chair (red bbox) and chair (yellow bbox)? What changes when observer moves to chair (green bbox) and face chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, closer, behind, behind\nB. , above, closer, behind, front\nC. left, , closer, front, front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007001/000.jpg", + "spar_bench/sample_007001/001.jpg", + "spar_bench/sample_007001/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7002, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of boxes (red bbox) and roomba (yellow bbox) shift in the observer\u2019s view after observer moving to doors (green bbox) and focusing on piano bench (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, farther, , behind\nB. left, above, farther, front, \nC. left, , farther, front, front\nD. left, above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007002/000.jpg", + "spar_bench/sample_007002/001.jpg", + "spar_bench/sample_007002/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7003, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, what is the relationship between chair (red bbox) and chair (yellow bbox) before moving? How does it evolve after camera moving to 3d center of chair (green bbox) and facing 3d center of chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, , farther, front, front\nB. left, above, farther, front, front\nC. right, below, closer, behind, behind\nD. right, , farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007003/000.jpg", + "spar_bench/sample_007003/001.jpg", + "spar_bench/sample_007003/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7004, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between handrail (red bbox) and seat (yellow bbox)? What changes when observer moves to toilet seat cover dispenser (green bbox) and face radiator (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, , front, front\nB. right, , closer, front, front\nC. right, above, farther, front, front\nD. , above, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007004/000.jpg", + "spar_bench/sample_007004/001.jpg", + "spar_bench/sample_007004/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7005, + "data_source": "SPAR-Bench", + "question": "Describe the transformation in the spatial relationship between tray (red bbox) and backpack (yellow bbox) as the observer moves to plant (green bbox) and focuses on chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , farther, behind, front\nB. right, , farther, front, behind\nC. , above, closer, front, behind\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007005/000.jpg", + "spar_bench/sample_007005/001.jpg", + "spar_bench/sample_007005/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7006, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between chair (red bbox) and chair (yellow bbox) from the observer\u2019s perspective before and after observer relocating to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, , farther, front, front\nB. right, below, , behind, behind\nC. left, above, closer, front, front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007006/000.jpg", + "spar_bench/sample_007006/001.jpg", + "spar_bench/sample_007006/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7007, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial positioning of trash can (red bbox) relative to window (yellow bbox) from the observer\u2019s perspective. How does this positioning change after observer moving to table (green bbox) and orienting towards window (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, , closer, front, front\nB. , below, farther, front, front\nC. left, , farther, front, front\nD. , above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007007/000.jpg", + "spar_bench/sample_007007/001.jpg", + "spar_bench/sample_007007/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7008, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of office chair (red bbox) and office chair (yellow bbox) shift when the observer moves to office chair (green bbox) and focuses on window (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, farther, front, front\nB. left, below, closer, , front\nC. right, , closer, front, front\nD. right, below, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007008/000.jpg", + "spar_bench/sample_007008/001.jpg", + "spar_bench/sample_007008/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7009, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between kitchen cabinets (red bbox) and armchair (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of chair (green bbox) and facing table (blue bbox). Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, , closer, front, behind\nB. right, below, closer, , front\nC. left, below, farther, , behind\nD. right, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007009/000.jpg", + "spar_bench/sample_007009/001.jpg", + "spar_bench/sample_007009/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7010, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the relationship between chair (red bbox) and table (yellow bbox) transform upon observer moving to trash can (green bbox) and facing paper cutter (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, below, , front, front\nB. right, , closer, front, front\nC. , below, closer, front, front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007010/000.jpg", + "spar_bench/sample_007010/001.jpg", + "spar_bench/sample_007010/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7011, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial configuration of mini fridge (red bbox) and lamp (yellow bbox) as seen by the observer? How does this configuration change upon observer moving to chair (green bbox) and facing trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , below, farther, front, front\nB. right, below, farther, front, front\nC. right, , farther, front, behind\nD. left, above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007011/000.jpg", + "spar_bench/sample_007011/001.jpg", + "spar_bench/sample_007011/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7012, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of chair (red bbox) and table (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to table (green bbox) and orientation towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , closer, front, behind\nB. left, below, closer, front, front\nC. left, , closer, behind, front\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007012/000.jpg", + "spar_bench/sample_007012/001.jpg", + "spar_bench/sample_007012/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7013, + "data_source": "SPAR-Bench", + "question": "Before moving to trash can (green bbox), what is the observer\u2019s perspective of the relationship between chair (red bbox) and trash can (yellow bbox)? How does this perspective shift after observer relocating and orienting towards boxes (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, farther, front, \nB. left, , closer, front, behind\nC. left, , farther, front, behind\nD. left, above, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007013/000.jpg", + "spar_bench/sample_007013/001.jpg", + "spar_bench/sample_007013/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7014, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of decoration (red bbox) in relation to pillow (yellow bbox)? How does this orientation shift after the observer moves to pillow (green bbox) and faces picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, farther, front, \nB. right, above, , behind, front\nC. right, above, farther, front, front\nD. right, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007014/000.jpg", + "spar_bench/sample_007014/001.jpg", + "spar_bench/sample_007014/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7015, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between chair (red bbox) and chair (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to chair (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, farther, front, behind\nB. right, , farther, front, front\nC. right, below, farther, , front\nD. right, above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007015/000.jpg", + "spar_bench/sample_007015/001.jpg", + "spar_bench/sample_007015/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7016, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between cabinet (red bbox) and mat (yellow bbox) as observed before and after observer relocating to window (green bbox) and facing window (blue bbox). Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, farther, front, front\nB. right, above, , front, front\nC. right, , closer, front, front\nD. right, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007016/000.jpg", + "spar_bench/sample_007016/001.jpg", + "spar_bench/sample_007016/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7017, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between chair (red bbox) and chair (yellow bbox) evolve after observer moving to chair (green bbox) and orienting towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, below, , front, behind\nB. , below, farther, behind, behind\nC. left, below, closer, behind, \nD. right, below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007017/000.jpg", + "spar_bench/sample_007017/001.jpg", + "spar_bench/sample_007017/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7018, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of cabinets (red bbox) and cabinets (yellow bbox) before and after observer relocating to cabinets (green bbox) and facing trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, , closer, front, front\nB. left, above, , behind, front\nC. left, above, closer, front, front\nD. left, above, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007018/000.jpg", + "spar_bench/sample_007018/001.jpg", + "spar_bench/sample_007018/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7019, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of cabinet (red bbox) and desk (yellow bbox) shift in the observer\u2019s view after observer moving to monitor (green bbox) and focusing on suitcase (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , closer, front, behind\nB. left, above, closer, front, front\nC. right, above, closer, front, \nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007019/000.jpg", + "spar_bench/sample_007019/001.jpg", + "spar_bench/sample_007019/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7020, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the relationship between chair (red bbox) and window (yellow bbox) transform upon observer moving to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, , closer, behind, front\nB. left, above, closer, , behind\nC. left, below, closer, behind, front\nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007020/000.jpg", + "spar_bench/sample_007020/001.jpg", + "spar_bench/sample_007020/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7021, + "data_source": "SPAR-Bench", + "question": "Before moving to table (green bbox), what is the observer\u2019s perspective of the relationship between sculpture (red bbox) and pillow (yellow bbox)? How does this perspective shift after observer relocating and orienting towards window (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, closer, , behind\nB. , below, closer, front, front\nC. right, above, closer, front, front\nD. right, above, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007021/000.jpg", + "spar_bench/sample_007021/001.jpg", + "spar_bench/sample_007021/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7022, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between electrical pipe (red bbox) and spray bottle (yellow bbox) evolve after observer moving to alligator clips (green bbox) and orienting towards water pipe (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, farther, behind, \nB. left, above, farther, front, front\nC. left, below, farther, , front\nD. left, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007022/000.jpg", + "spar_bench/sample_007022/001.jpg", + "spar_bench/sample_007022/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7023, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial positioning of laboratory equipment (red bbox) and electrical duct (yellow bbox) from the observer\u2019s viewpoint? How does it alter after observer moving to cardboard box (green bbox) and orienting towards pipe (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. left, below, , behind, front\nB. left, below, , front, front\nC. left, , farther, behind, behind\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007023/000.jpg", + "spar_bench/sample_007023/001.jpg", + "spar_bench/sample_007023/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7024, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is box (red bbox) located relative to book (yellow bbox)? How does this spatial relationship change after observer moving to bookshelf (green bbox) and focusing on computer tower (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, below, closer, behind, front\nB. left, , closer, front, front\nC. right, , closer, behind, front\nD. right, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007024/000.jpg", + "spar_bench/sample_007024/001.jpg", + "spar_bench/sample_007024/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7025, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the relationship between tap (red bbox) and sink (yellow bbox) transform upon observer moving to bottle (green bbox) and facing roof (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. , above, , front, front\nB. left, , closer, front, front\nC. left, above, farther, behind, front\nD. , below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007025/000.jpg", + "spar_bench/sample_007025/001.jpg", + "spar_bench/sample_007025/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7026, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of blinds (red bbox) and chair (yellow bbox) initially, and how does this relationship change after observer relocating to table (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, below, farther, , behind\nB. right, below, , behind, front\nC. left, above, farther, behind, behind\nD. left, below, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007026/000.jpg", + "spar_bench/sample_007026/001.jpg", + "spar_bench/sample_007026/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7027, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of bedframe (red bbox) and bedframe (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to light switch (green bbox) and orientation towards pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, , farther, behind, front\nB. left, , farther, front, front\nC. left, above, farther, , front\nD. left, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007027/000.jpg", + "spar_bench/sample_007027/001.jpg", + "spar_bench/sample_007027/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7028, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial arrangement of cardboard box (red bbox) and cardboard box (yellow bbox) differ after observer moving to cable tray (green bbox) and facing cardboard box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. left, above, closer, , front\nB. left, , closer, front, front\nC. left, below, closer, front, front\nD. right, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007028/000.jpg", + "spar_bench/sample_007028/001.jpg", + "spar_bench/sample_007028/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7029, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial alignment of power sockets (red bbox) and power sockets (yellow bbox) from the observer\u2019s perspective? How does it change after observer moving to table (green bbox) and facing stapler (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, , front, front\nB. right, below, , front, front\nC. right, above, farther, front, front\nD. right, below, farther, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007029/000.jpg", + "spar_bench/sample_007029/001.jpg", + "spar_bench/sample_007029/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7030, + "data_source": "SPAR-Bench", + "question": "Before moving to chair (green bbox), what is the observer\u2019s perspective of the relationship between computer tower (red bbox) and electrical duct (yellow bbox)? How does this perspective shift after observer relocating and orienting towards computer tower (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , below, farther, behind, front\nB. right, below, farther, front, front\nC. left, above, farther, behind, \nD. right, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007030/000.jpg", + "spar_bench/sample_007030/001.jpg", + "spar_bench/sample_007030/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7031, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between whiteboard (red bbox) and power socket (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of SPLIT (green bbox) and facing light switch (blue bbox). Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, closer, , behind\nB. right, above, farther, behind, front\nC. right, above, farther, behind, behind\nD. left, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007031/000.jpg", + "spar_bench/sample_007031/001.jpg", + "spar_bench/sample_007031/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7032, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between blanket (red bbox) and power socket (yellow bbox)? What changes when observer moves to coaster (green bbox) and face speaker (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, closer, front, front\nB. right, above, farther, behind, behind\nC. left, below, closer, front, front\nD. left, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007032/000.jpg", + "spar_bench/sample_007032/001.jpg", + "spar_bench/sample_007032/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7033, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the relative position of book (red bbox) to chair (yellow bbox) initially, and how does this position change after observer relocating to cabinet (green bbox) and facing light switch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, farther, behind, \nB. right, above, , behind, front\nC. right, above, , front, front\nD. left, above, , behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007033/000.jpg", + "spar_bench/sample_007033/001.jpg", + "spar_bench/sample_007033/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7034, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perception of the spatial positioning of SPLIT (red bbox) and light switch (yellow bbox) change when observer relocates to chair (green bbox) and face table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. , below, closer, front, behind\nB. left, below, closer, front, behind\nC. right, above, closer, , front\nD. , below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007034/000.jpg", + "spar_bench/sample_007034/001.jpg", + "spar_bench/sample_007034/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7035, + "data_source": "SPAR-Bench", + "question": "Initially, what is the observer\u2019s understanding of the relationship between book (red bbox) and fruit (yellow bbox)? How does this understanding change after observer moving to mug (green bbox) and orienting towards box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, , behind, behind\nB. left, below, farther, front, front\nC. , below, closer, front, front\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007035/000.jpg", + "spar_bench/sample_007035/001.jpg", + "spar_bench/sample_007035/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7036, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of paper (red bbox) and backpack (yellow bbox) initially, and how does this relationship change after observer relocating to computer tower (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , below, closer, front, front\nB. left, below, closer, behind, front\nC. , below, farther, front, behind\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007036/000.jpg", + "spar_bench/sample_007036/001.jpg", + "spar_bench/sample_007036/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7037, + "data_source": "SPAR-Bench", + "question": "How are liquid soap (red bbox) and kitchen cabinet (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to dishwasher (green bbox) and orienting towards sink (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, above, farther, front, behind\nB. left, above, farther, front, front\nC. left, above, farther, behind, behind\nD. , below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007037/000.jpg", + "spar_bench/sample_007037/001.jpg", + "spar_bench/sample_007037/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7038, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of pillow (red bbox) relative to sculpture (yellow bbox) change when observer relocates to table (green bbox) and face window (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, farther, front, front\nB. left, above, farther, front, front\nC. left, below, farther, , front\nD. left, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007038/000.jpg", + "spar_bench/sample_007038/001.jpg", + "spar_bench/sample_007038/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7039, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between pen (red bbox) and cabinet (yellow bbox)? What changes when observer moves to keyboard (green bbox) and face monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, farther, behind, behind\nB. , above, farther, front, behind\nC. , above, closer, front, behind\nD. left, above, farther, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007039/000.jpg", + "spar_bench/sample_007039/001.jpg", + "spar_bench/sample_007039/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7040, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between cabinet (red bbox) and window (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to table (green bbox) and orienting towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, below, farther, behind, front\nB. left, below, farther, behind, front\nC. right, below, , behind, behind\nD. left, below, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007040/000.jpg", + "spar_bench/sample_007040/001.jpg", + "spar_bench/sample_007040/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7041, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the relative position of chair (red bbox) to chair (yellow bbox) initially, and how does this position change after observer relocating to refrigerator (green bbox) and facing arm chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, farther, , front\nB. right, above, , front, behind\nC. left, , farther, front, behind\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007041/000.jpg", + "spar_bench/sample_007041/001.jpg", + "spar_bench/sample_007041/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7042, + "data_source": "SPAR-Bench", + "question": "What is the spatial arrangement of power socket (red bbox) and windowframe (yellow bbox) in the observer\u2019s view? How does this arrangement change when the observer relocates to monitor (green bbox) and faces heater (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , above, closer, front, front\nB. , below, closer, front, front\nC. left, below, farther, front, front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007042/000.jpg", + "spar_bench/sample_007042/001.jpg", + "spar_bench/sample_007042/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7043, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the relative position of keyboard (red bbox) to coffee machine (yellow bbox) initially, and how does this position change after observer relocating to whiteboard eraser (green bbox) and facing table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , below, farther, behind, behind\nB. right, below, , front, front\nC. left, below, closer, front, front\nD. left, below, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007043/000.jpg", + "spar_bench/sample_007043/001.jpg", + "spar_bench/sample_007043/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7044, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perception of the spatial relationship between wardrobe (red bbox) and tv remote (yellow bbox) when observer relocates to pillow (green bbox) and face counter (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, , farther, front, front\nB. right, below, closer, behind, front\nC. right, , farther, front, front\nD. left, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007044/000.jpg", + "spar_bench/sample_007044/001.jpg", + "spar_bench/sample_007044/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7045, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of monitor (red bbox) and keyboard (yellow bbox) before and after observer relocating to paper towel (green bbox) and facing mouse (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. , above, , front, front\nB. , above, closer, front, front\nC. left, above, farther, front, front\nD. , above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007045/000.jpg", + "spar_bench/sample_007045/001.jpg", + "spar_bench/sample_007045/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7046, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial positioning of air conditioner (red bbox) relative to windowsill (yellow bbox) from the observer\u2019s perspective. How does this positioning change after observer moving to windowframe (green bbox) and orienting towards rolling chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , farther, front, behind\nB. right, below, farther, front, front\nC. left, , farther, behind, front\nD. right, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007046/000.jpg", + "spar_bench/sample_007046/001.jpg", + "spar_bench/sample_007046/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7047, + "data_source": "SPAR-Bench", + "question": "Initially, how does the observer perceive the relationship between chair (red bbox) and jacket (yellow bbox)? How does this perception alter after observer moving to shoes (green bbox) and facing suitcase (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, farther, behind, front\nB. left, below, closer, front, \nC. right, , closer, front, front\nD. right, below, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007047/000.jpg", + "spar_bench/sample_007047/001.jpg", + "spar_bench/sample_007047/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7048, + "data_source": "SPAR-Bench", + "question": "How does the spatial interaction between pipe (red bbox) and cardboard box (yellow bbox) change from the observer\u2019s perspective after observer moving to structure (green bbox) and focusing on laboratory equipment (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, farther, front, behind\nB. , below, farther, front, behind\nC. right, below, closer, front, front\nD. left, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007048/000.jpg", + "spar_bench/sample_007048/001.jpg", + "spar_bench/sample_007048/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7049, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, what is the relationship between window frame (red bbox) and mouse (yellow bbox) before moving? How does it evolve after camera moving to 3d center of box (green bbox) and facing 3d center of table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, , farther, front, behind\nB. right, , closer, front, behind\nC. right, , farther, front, front\nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007049/000.jpg", + "spar_bench/sample_007049/001.jpg", + "spar_bench/sample_007049/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7050, + "data_source": "SPAR-Bench", + "question": "Describe the transformation in the spatial relationship between sink (red bbox) and cup (yellow bbox) as the observer moves to window sill (green bbox) and focuses on shelf (blue bbox). Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, above, farther, front, front\nB. left, below, , front, front\nC. left, below, farther, front, front\nD. right, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007050/000.jpg", + "spar_bench/sample_007050/001.jpg", + "spar_bench/sample_007050/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7051, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial configuration of cardboard box (red bbox) and cardboard box (yellow bbox) as seen by the observer? How does this configuration change upon observer moving to pipe (green bbox) and facing cable tray (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, below, , front, front\nB. , below, closer, front, front\nC. left, above, , front, front\nD. left, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007051/000.jpg", + "spar_bench/sample_007051/001.jpg", + "spar_bench/sample_007051/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7052, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between window (red bbox) and laptop (yellow bbox) evolve after observer moving to office chair (green bbox) and orienting towards pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, , farther, front, front\nB. right, above, closer, , front\nC. left, above, closer, behind, front\nD. left, , , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007052/000.jpg", + "spar_bench/sample_007052/001.jpg", + "spar_bench/sample_007052/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7053, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of kitchen cabinet (red bbox) relative to microwave (yellow bbox) change when observer relocates to bag (green bbox) and face kitchen utensil (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, farther, behind, front\nB. right, below, closer, , front\nC. right, , farther, front, front\nD. right, above, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007053/000.jpg", + "spar_bench/sample_007053/001.jpg", + "spar_bench/sample_007053/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7054, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial alignment of softbox light (red bbox) and window frame (yellow bbox) from the observer\u2019s perspective? How does it change after observer moving to mouse (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , below, farther, front, front\nB. right, , farther, front, front\nC. , above, farther, front, front\nD. right, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007054/000.jpg", + "spar_bench/sample_007054/001.jpg", + "spar_bench/sample_007054/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7055, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial configuration of chair (red bbox) and chair (yellow bbox) as seen by the observer? How does this configuration change upon observer moving to chair (green bbox) and facing split (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, farther, front, front\nB. , above, closer, behind, behind\nC. right, , farther, behind, front\nD. right, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007055/000.jpg", + "spar_bench/sample_007055/001.jpg", + "spar_bench/sample_007055/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7056, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between structure (red bbox) and pc (yellow bbox) as observed before and after observer relocating to towel (green bbox) and facing shoes holder (blue bbox). Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, , behind, front\nB. left, below, closer, behind, \nC. left, above, closer, front, front\nD. left, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007056/000.jpg", + "spar_bench/sample_007056/001.jpg", + "spar_bench/sample_007056/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7057, + "data_source": "SPAR-Bench", + "question": "How does the relationship between book (red bbox) and air vent (yellow bbox) evolve as the observer moves to book (green bbox) and orients towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, closer, behind, front\nB. left, below, closer, front, front\nC. left, above, closer, front, front\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007057/000.jpg", + "spar_bench/sample_007057/001.jpg", + "spar_bench/sample_007057/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7058, + "data_source": "SPAR-Bench", + "question": "Describe the positional dynamics of plant pot (red bbox) relative to boot (yellow bbox) before and after the observer moves to the center of SPLIT (green bbox) and faces bicycle (blue bbox). Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, , closer, front, front\nB. left, above, farther, , front\nC. left, , closer, front, behind\nD. left, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007058/000.jpg", + "spar_bench/sample_007058/001.jpg", + "spar_bench/sample_007058/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7059, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial arrangement of shelf (red bbox) and bed (yellow bbox) differ after observer moving to chair (green bbox) and facing instant pot (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , farther, front, front\nB. right, above, closer, front, front\nC. right, below, closer, , front\nD. , above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007059/000.jpg", + "spar_bench/sample_007059/001.jpg", + "spar_bench/sample_007059/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7060, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial arrangement of bin (red bbox) and window frame (yellow bbox) differ after observer moving to stationery (green bbox) and facing bin (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, closer, front, behind\nB. right, below, closer, behind, behind\nC. right, above, closer, front, behind\nD. left, , farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007060/000.jpg", + "spar_bench/sample_007060/001.jpg", + "spar_bench/sample_007060/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7061, + "data_source": "SPAR-Bench", + "question": "How does the relationship between book (red bbox) and book (yellow bbox) evolve as the observer moves to book (green bbox) and orients towards book (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, below, farther, , front\nB. left, above, farther, front, behind\nC. left, below, farther, front, front\nD. left, , farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007061/000.jpg", + "spar_bench/sample_007061/001.jpg", + "spar_bench/sample_007061/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7062, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to pipe (green bbox) and orientation towards wooden plank (blue bbox) influence the observer\u2019s view of the spatial relationship between pipe (red bbox) and pipe (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, closer, front, front\nB. , below, farther, front, behind\nC. left, , farther, front, front\nD. left, below, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007062/000.jpg", + "spar_bench/sample_007062/001.jpg", + "spar_bench/sample_007062/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7063, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perception of the spatial relationship between joined tables (red bbox) and SPLIT (yellow bbox) when observer relocates to chair (green bbox) and face light switch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, , farther, front, front\nB. left, above, , behind, front\nC. left, below, closer, front, \nD. left, above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007063/000.jpg", + "spar_bench/sample_007063/001.jpg", + "spar_bench/sample_007063/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7064, + "data_source": "SPAR-Bench", + "question": "Before moving to dishwasher (green bbox), what is the observer\u2019s perspective of the relationship between fire extinguisher (red bbox) and kitchen towel (yellow bbox)? How does this perspective shift after observer relocating and orienting towards bottle (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, farther, behind, front\nB. left, , closer, front, behind\nC. , below, closer, front, front\nD. , above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007064/000.jpg", + "spar_bench/sample_007064/001.jpg", + "spar_bench/sample_007064/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7065, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between water kettle (red bbox) and kitchen counter (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of windowsill (green bbox) and facing kitchen cabinet (blue bbox). Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, , closer, front, behind\nB. right, above, , front, front\nC. , above, closer, front, front\nD. , below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007065/000.jpg", + "spar_bench/sample_007065/001.jpg", + "spar_bench/sample_007065/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7066, + "data_source": "SPAR-Bench", + "question": "What are the changes in the spatial configuration of paper towel package (red bbox) relative to egg carton (yellow bbox) as seen by the observer upon observer moving to trash can (green bbox) and focusing on kitchen cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, closer, , front\nB. left, , farther, front, front\nC. right, below, farther, behind, front\nD. , above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007066/000.jpg", + "spar_bench/sample_007066/001.jpg", + "spar_bench/sample_007066/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7067, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of power socket (red bbox) and chair (yellow bbox) shift when the observer moves to rolling cart (green bbox) and focuses on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. , above, closer, behind, front\nB. left, below, farther, behind, \nC. left, above, closer, behind, behind\nD. left, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007067/000.jpg", + "spar_bench/sample_007067/001.jpg", + "spar_bench/sample_007067/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7068, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial relationship between chair (red bbox) and book (yellow bbox). How does this change from the observer\u2019s perspective after observer moving to cabinet (green bbox) and facing book (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, closer, front, \nB. , below, farther, front, front\nC. right, below, farther, , behind\nD. left, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007068/000.jpg", + "spar_bench/sample_007068/001.jpg", + "spar_bench/sample_007068/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7069, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between window (red bbox) and chair (yellow bbox) as observed before and after observer relocating to chair (green bbox) and facing book (blue bbox). Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, farther, , front\nB. right, below, closer, , front\nC. right, , closer, front, front\nD. right, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007069/000.jpg", + "spar_bench/sample_007069/001.jpg", + "spar_bench/sample_007069/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7070, + "data_source": "SPAR-Bench", + "question": "What are the relative positions of ball (red bbox) and pen (yellow bbox) when viewed by the observer? How do these positions change after the observer moves to keyboard (green bbox) and faces cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , below, farther, front, behind\nB. , above, , behind, behind\nC. right, above, farther, , behind\nD. left, above, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007070/000.jpg", + "spar_bench/sample_007070/001.jpg", + "spar_bench/sample_007070/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7071, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of keyboard (red bbox) and window (yellow bbox) initially, and how does this relationship change after observer relocating to whiteboard eraser (green bbox) and facing table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, below, , front, front\nB. left, , closer, front, behind\nC. left, below, closer, front, front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007071/000.jpg", + "spar_bench/sample_007071/001.jpg", + "spar_bench/sample_007071/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7072, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial relationship between plate (red bbox) and storage cabinet (yellow bbox). How does this change from the observer\u2019s perspective after observer moving to window (green bbox) and facing trash can (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, , front, front\nB. , below, farther, behind, front\nC. right, , , front, front\nD. left, above, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007072/000.jpg", + "spar_bench/sample_007072/001.jpg", + "spar_bench/sample_007072/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7073, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, what is the relationship between box (red bbox) and box (yellow bbox) before moving? How does it evolve after camera moving to 3d center of cabinet (green bbox) and facing 3d center of light switch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, , farther, front, front\nB. , above, farther, front, front\nC. left, above, , behind, front\nD. right, above, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007073/000.jpg", + "spar_bench/sample_007073/001.jpg", + "spar_bench/sample_007073/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7074, + "data_source": "SPAR-Bench", + "question": "What are the changes in the spatial configuration of light switch (red bbox) relative to kitchen cabinet (yellow bbox) as seen by the observer upon observer moving to power socket (green bbox) and focusing on sink (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, below, closer, front, front\nB. right, below, , front, front\nC. right, below, farther, behind, front\nD. left, , farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007074/000.jpg", + "spar_bench/sample_007074/001.jpg", + "spar_bench/sample_007074/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7075, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of table (red bbox) and keyboard (yellow bbox) shift when the observer moves to paper towel (green bbox) and focuses on mouse (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. , below, closer, front, front\nB. right, below, closer, front, front\nC. right, below, closer, behind, \nD. right, above, farther, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007075/000.jpg", + "spar_bench/sample_007075/001.jpg", + "spar_bench/sample_007075/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7076, + "data_source": "SPAR-Bench", + "question": "How are whiteboard (red bbox) and cup (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to office chair (green bbox) and orienting towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , above, farther, front, front\nB. left, above, farther, front, front\nC. right, below, farther, front, front\nD. left, above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007076/000.jpg", + "spar_bench/sample_007076/001.jpg", + "spar_bench/sample_007076/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7077, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial configuration of tv (red bbox) and remote controller (yellow bbox) as seen by the observer? How does this configuration change upon observer moving to coaster (green bbox) and facing plant pot (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, above, farther, , front\nB. left, above, , front, behind\nC. left, below, closer, , front\nD. left, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007077/000.jpg", + "spar_bench/sample_007077/001.jpg", + "spar_bench/sample_007077/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7078, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between computer tower (red bbox) and window (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of computer tower (green bbox) and facing computer tower (blue bbox). Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, , closer, front, front\nB. right, , closer, front, front\nC. right, above, closer, behind, behind\nD. right, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007078/000.jpg", + "spar_bench/sample_007078/001.jpg", + "spar_bench/sample_007078/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7079, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perception of the spatial relationship between storage cabinet (red bbox) and cardboard box (yellow bbox) when observer relocates to cardboard box (green bbox) and face monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, , farther, front, behind\nB. left, below, closer, behind, front\nC. left, below, farther, front, front\nD. left, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007079/000.jpg", + "spar_bench/sample_007079/001.jpg", + "spar_bench/sample_007079/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7080, + "data_source": "SPAR-Bench", + "question": "What does the observer initially perceive as the spatial relationship between comforter (red bbox) and bag (yellow bbox)? How does this perception alter upon observer relocating to bedside cabinet (green bbox) and focusing on bed (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, farther, front, front\nB. left, below, closer, behind, behind\nC. left, , farther, front, front\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007080/000.jpg", + "spar_bench/sample_007080/001.jpg", + "spar_bench/sample_007080/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7081, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perception of the spatial positioning of kitchen utensil (red bbox) and mug (yellow bbox) change when observer relocates to bag (green bbox) and face kitchen utensil (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, below, farther, front, front\nB. right, above, , front, behind\nC. right, above, farther, front, front\nD. left, below, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007081/000.jpg", + "spar_bench/sample_007081/001.jpg", + "spar_bench/sample_007081/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7082, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is machine (red bbox) located relative to power socket (yellow bbox)? How does this spatial relationship change after observer moving to picture (green bbox) and focusing on lamp (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, farther, , behind\nB. right, , farther, front, front\nC. right, below, , front, front\nD. left, below, , behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007082/000.jpg", + "spar_bench/sample_007082/001.jpg", + "spar_bench/sample_007082/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7083, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, how does the relative positioning of electrical duct (red bbox) and box (yellow bbox) evolve after observer moving to mug (green bbox) and facing power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, closer, behind, front\nB. left, below, , behind, front\nC. left, below, closer, behind, behind\nD. right, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007083/000.jpg", + "spar_bench/sample_007083/001.jpg", + "spar_bench/sample_007083/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7084, + "data_source": "SPAR-Bench", + "question": "How does the relationship between chair (red bbox) and chair (yellow bbox) evolve as the observer moves to chair (green bbox) and orients towards window (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, above, , behind, front\nB. left, , farther, behind, front\nC. right, , farther, behind, front\nD. right, below, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007084/000.jpg", + "spar_bench/sample_007084/001.jpg", + "spar_bench/sample_007084/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7085, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial dynamic between chair (red bbox) and office chair (yellow bbox) from the observer\u2019s perspective? How does it transform after observer moving to bucket (green bbox) and orienting towards standing fan (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , closer, front, front\nB. left, above, farther, front, front\nC. left, , farther, front, front\nD. right, , farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007085/000.jpg", + "spar_bench/sample_007085/001.jpg", + "spar_bench/sample_007085/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7086, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between plant pot mat (red bbox) and box (yellow bbox) from the observer\u2019s perspective before and after observer relocating to guitar (green bbox) and facing spray bottle (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, closer, behind, \nB. , below, farther, front, behind\nC. right, above, farther, front, front\nD. right, above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007086/000.jpg", + "spar_bench/sample_007086/001.jpg", + "spar_bench/sample_007086/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7087, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between box (red bbox) and stool (yellow bbox)? What changes when observer moves to stool (green bbox) and face bench (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, farther, , behind\nB. left, , farther, front, front\nC. left, above, farther, front, \nD. left, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007087/000.jpg", + "spar_bench/sample_007087/001.jpg", + "spar_bench/sample_007087/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7088, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of cardboard box (red bbox) and cardboard box (yellow bbox) initially, and how does this relationship change after observer relocating to cardboard box (green bbox) and facing shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, above, farther, front, front\nB. right, above, farther, front, front\nC. right, below, closer, behind, front\nD. right, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007088/000.jpg", + "spar_bench/sample_007088/001.jpg", + "spar_bench/sample_007088/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7089, + "data_source": "SPAR-Bench", + "question": "Describe the relationship between power socket (red bbox) and office chair (yellow bbox) as initially seen by the observer and how it changes upon observer moving to overhead projector (green bbox) and focusing on office chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , closer, front, front\nB. left, below, closer, , front\nC. left, below, closer, front, behind\nD. left, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007089/000.jpg", + "spar_bench/sample_007089/001.jpg", + "spar_bench/sample_007089/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7090, + "data_source": "SPAR-Bench", + "question": "How does the spatial interaction between chair (red bbox) and chair (yellow bbox) change from the observer\u2019s perspective after observer moving to blackboard (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, , behind, front\nB. right, , closer, front, behind\nC. right, , closer, behind, behind\nD. left, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007090/000.jpg", + "spar_bench/sample_007090/001.jpg", + "spar_bench/sample_007090/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7091, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between shelf (red bbox) and bed (yellow bbox) evolve after observer moving to bedside cabinet (green bbox) and orienting towards bedframe (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , closer, front, behind\nB. left, below, closer, behind, behind\nC. , below, farther, behind, front\nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007091/000.jpg", + "spar_bench/sample_007091/001.jpg", + "spar_bench/sample_007091/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7092, + "data_source": "SPAR-Bench", + "question": "How are box (red bbox) and trash bin (yellow bbox) positioned from the observer\u2019s perspective? After observer relocating to books (green bbox) and orienting towards box (blue bbox), what changes occur? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , closer, front, \nB. right, , farther, front, front\nC. left, above, closer, front, \nD. left, below, closer, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007092/000.jpg", + "spar_bench/sample_007092/001.jpg", + "spar_bench/sample_007092/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7093, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between book (red bbox) and book (yellow bbox) as seen initially and after the observer moves to books (green bbox) and focuses on book (blue bbox). Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , below, closer, front, behind\nB. left, above, closer, , behind\nC. , above, farther, behind, front\nD. , above, , behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007093/000.jpg", + "spar_bench/sample_007093/001.jpg", + "spar_bench/sample_007093/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7094, + "data_source": "SPAR-Bench", + "question": "Initially, where does windowframe (red bbox) appear in relation to cabinet (yellow bbox) from the observer\u2019s perspective? How does this perception shift after observer moving to table (green bbox) and orienting towards monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. , above, farther, behind, front\nB. right, above, farther, behind, front\nC. right, below, closer, , front\nD. left, above, farther, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007094/000.jpg", + "spar_bench/sample_007094/001.jpg", + "spar_bench/sample_007094/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7095, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between books (red bbox) and jug (yellow bbox) appear from the observer's perspective? After observer relocating to windowsill (green bbox) and orienting towards cabinet (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, closer, front, front\nB. , below, closer, front, front\nC. right, above, closer, , front\nD. right, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007095/000.jpg", + "spar_bench/sample_007095/001.jpg", + "spar_bench/sample_007095/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7096, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship between windowsill (red bbox) and keyboard (yellow bbox) from the observer\u2019s perspective before and after observer relocating to window frame (green bbox) and facing table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, above, closer, , behind\nB. right, above, closer, front, behind\nC. right, below, farther, front, behind\nD. left, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007096/000.jpg", + "spar_bench/sample_007096/001.jpg", + "spar_bench/sample_007096/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7097, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between curtain rail (red bbox) and power socket (yellow bbox) evolve after observer moving to chair (green bbox) and orienting towards split (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, closer, front, front\nB. right, above, closer, front, behind\nC. right, above, closer, front, front\nD. left, above, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007097/000.jpg", + "spar_bench/sample_007097/001.jpg", + "spar_bench/sample_007097/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7098, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between laptop (red bbox) and monitor (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of book (green bbox) and facing blinds (blue bbox). Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, , closer, behind, behind\nB. right, below, farther, front, \nC. left, below, closer, front, \nD. right, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007098/000.jpg", + "spar_bench/sample_007098/001.jpg", + "spar_bench/sample_007098/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7099, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of tv (red bbox) and book (yellow bbox) shift when the observer moves to sofa chair (green bbox) and focuses on plant pot (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, , farther, front, front\nB. , below, farther, front, front\nC. right, below, farther, , front\nD. left, above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007099/000.jpg", + "spar_bench/sample_007099/001.jpg", + "spar_bench/sample_007099/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7100, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between window (red bbox) and table (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to chair (green bbox) and orienting towards book (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. right, above, , front, front\nB. right, , closer, front, front\nC. right, , closer, behind, front\nD. , below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007100/000.jpg", + "spar_bench/sample_007100/001.jpg", + "spar_bench/sample_007100/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7101, + "data_source": "SPAR-Bench", + "question": "Describe the spatial configuration of monitor (red bbox) relative to telephone (yellow bbox) as initially seen by the observer and how this changes after observer moving to window sill (green bbox) and facing office chair (blue bbox). Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, above, closer, , behind\nB. right, below, farther, front, behind\nC. right, above, farther, front, front\nD. left, above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007101/000.jpg", + "spar_bench/sample_007101/001.jpg", + "spar_bench/sample_007101/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7102, + "data_source": "SPAR-Bench", + "question": "How does the relationship between heater (red bbox) and computer tower (yellow bbox) evolve as the observer moves to computer tower (green bbox) and orients towards computer tower (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, below, farther, front, front\nB. left, below, , front, behind\nC. left, , farther, front, front\nD. , below, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007102/000.jpg", + "spar_bench/sample_007102/001.jpg", + "spar_bench/sample_007102/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7103, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of pipe (red bbox) and wooden plank (yellow bbox) before and after observer relocating to pipe (green bbox) and facing wooden plank (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, , closer, front, front\nB. left, below, , front, front\nC. right, below, farther, behind, front\nD. right, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007103/000.jpg", + "spar_bench/sample_007103/001.jpg", + "spar_bench/sample_007103/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7104, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of table (red bbox) and pen holder (yellow bbox) before and after observer relocating to paper towel (green bbox) and facing mouse (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, closer, behind, front\nB. right, , closer, behind, behind\nC. right, below, closer, front, front\nD. left, below, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007104/000.jpg", + "spar_bench/sample_007104/001.jpg", + "spar_bench/sample_007104/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7105, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to picture (green bbox) and orientation towards lamp (blue bbox) influence the observer\u2019s view of the spatial relationship between machine (red bbox) and picture (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, below, , front, front\nB. right, above, , front, behind\nC. right, , farther, front, front\nD. right, , farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007105/000.jpg", + "spar_bench/sample_007105/001.jpg", + "spar_bench/sample_007105/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7106, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of shoe (red bbox) and power socket (yellow bbox) initially, and how does this relationship change after observer relocating to headset (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, farther, , behind\nB. left, below, farther, behind, behind\nC. left, below, farther, behind, \nD. right, above, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007106/000.jpg", + "spar_bench/sample_007106/001.jpg", + "spar_bench/sample_007106/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7107, + "data_source": "SPAR-Bench", + "question": "Describe the positional dynamics of table (red bbox) relative to cup (yellow bbox) before and after the observer moves to the center of office chair (green bbox) and faces power socket (blue bbox). Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, , front, front\nB. left, above, , front, front\nC. right, below, closer, , front\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007107/000.jpg", + "spar_bench/sample_007107/001.jpg", + "spar_bench/sample_007107/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7108, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial relationship between table (red bbox) and office chair (yellow bbox). How does this change from the observer\u2019s perspective after observer moving to pedestal fan (green bbox) and facing keyboard (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, below, farther, behind, behind\nB. right, above, , front, behind\nC. right, below, farther, , front\nD. right, , farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007108/000.jpg", + "spar_bench/sample_007108/001.jpg", + "spar_bench/sample_007108/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7109, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of mouse (red bbox) and mug (yellow bbox) shift in the observer\u2019s view after observer moving to computer tower (green bbox) and focusing on chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, closer, front, \nB. right, above, closer, front, front\nC. right, below, farther, , front\nD. left, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007109/000.jpg", + "spar_bench/sample_007109/001.jpg", + "spar_bench/sample_007109/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7110, + "data_source": "SPAR-Bench", + "question": "How are window (red bbox) and window frame (yellow bbox) positioned from the observer\u2019s perspective? After observer relocating to keyboard (green bbox) and orienting towards office chair (blue bbox), what changes occur? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, , front, behind\nB. left, , , front, front\nC. , below, closer, front, behind\nD. left, above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007110/000.jpg", + "spar_bench/sample_007110/001.jpg", + "spar_bench/sample_007110/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7111, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of power socket (red bbox) relative to shoe (yellow bbox) change when observer relocates to headset (green bbox) and face box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, above, closer, behind, behind\nB. right, above, farther, behind, front\nC. left, above, , behind, behind\nD. right, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007111/000.jpg", + "spar_bench/sample_007111/001.jpg", + "spar_bench/sample_007111/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7112, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s point of view, what changes occur in the spatial positioning of plant pot (red bbox) relative to bunny chocolate (yellow bbox) when observer moves to shelf (green bbox) and face plant (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, above, , behind, behind\nB. right, below, farther, , behind\nC. left, above, farther, behind, behind\nD. left, above, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007112/000.jpg", + "spar_bench/sample_007112/001.jpg", + "spar_bench/sample_007112/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7113, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between office chair (red bbox) and window frame (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to table (green bbox) and orienting towards table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, above, farther, front, front\nB. left, , closer, behind, front\nC. right, , farther, behind, behind\nD. left, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007113/000.jpg", + "spar_bench/sample_007113/001.jpg", + "spar_bench/sample_007113/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7114, + "data_source": "SPAR-Bench", + "question": "How are paper (red bbox) and table (yellow bbox) positioned from the observer\u2019s perspective? After observer relocating to paper (green bbox) and orienting towards photocopy machine (blue bbox), what changes occur? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, farther, front, behind\nB. left, above, closer, front, \nC. left, above, , front, front\nD. right, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007114/000.jpg", + "spar_bench/sample_007114/001.jpg", + "spar_bench/sample_007114/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7115, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between trash bin (red bbox) and flush button (yellow bbox) from the observer\u2019s view after observer moves to poster (green bbox) and focus on power socket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, below, closer, front, front\nB. right, below, closer, front, front\nC. left, below, closer, front, behind\nD. right, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007115/000.jpg", + "spar_bench/sample_007115/001.jpg", + "spar_bench/sample_007115/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7116, + "data_source": "SPAR-Bench", + "question": "What does the observer initially perceive as the spatial relationship between pen (red bbox) and pen (yellow bbox)? How does this perception alter upon observer relocating to cable (green bbox) and focusing on monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. , above, , front, front\nB. , above, farther, front, behind\nC. , above, farther, behind, front\nD. left, above, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007116/000.jpg", + "spar_bench/sample_007116/001.jpg", + "spar_bench/sample_007116/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7117, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between fire extinguisher (red bbox) and light switch (yellow bbox) evolve after observer moving to machine (green bbox) and orienting towards picture (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. , above, , front, front\nB. left, below, , front, front\nC. right, above, , front, front\nD. right, below, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007117/000.jpg", + "spar_bench/sample_007117/001.jpg", + "spar_bench/sample_007117/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7118, + "data_source": "SPAR-Bench", + "question": "From the observer's perspective, where is bed (red bbox) located relative to curtain (yellow bbox)? How does this spatial relationship change after observer moving to shelf (green bbox) and focusing on plant (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, farther, , behind\nB. left, above, closer, , front\nC. right, , closer, front, behind\nD. left, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007118/000.jpg", + "spar_bench/sample_007118/001.jpg", + "spar_bench/sample_007118/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7119, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of chair (red bbox) and power socket (yellow bbox) before and after observer relocating to chair (green bbox) and facing table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. left, above, farther, front, behind\nB. left, above, closer, front, behind\nC. left, above, closer, behind, behind\nD. left, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007119/000.jpg", + "spar_bench/sample_007119/001.jpg", + "spar_bench/sample_007119/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7120, + "data_source": "SPAR-Bench", + "question": "How are power socket (red bbox) and blanket (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to headset (green bbox) and orienting towards box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, below, farther, behind, front\nB. left, , farther, behind, front\nC. left, , farther, front, front\nD. left, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007120/000.jpg", + "spar_bench/sample_007120/001.jpg", + "spar_bench/sample_007120/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7121, + "data_source": "SPAR-Bench", + "question": "What is the relative positioning of bag (red bbox) and book (yellow bbox) from the observer\u2019s view? How does this change upon observer relocation to book (green bbox) and orientation towards shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , above, farther, front, behind\nB. left, , farther, front, front\nC. left, , closer, front, behind\nD. right, above, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007121/000.jpg", + "spar_bench/sample_007121/001.jpg", + "spar_bench/sample_007121/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7122, + "data_source": "SPAR-Bench", + "question": "Describe the spatial configuration of water filter (red bbox) relative to clothes (yellow bbox) as initially seen by the observer and how this changes after observer moving to bag (green bbox) and facing kitchen counter (blue bbox). Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, above, farther, front, front\nB. right, above, , front, behind\nC. right, above, closer, behind, front\nD. right, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007122/000.jpg", + "spar_bench/sample_007122/001.jpg", + "spar_bench/sample_007122/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7123, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, what is the relationship between computer tower (red bbox) and table (yellow bbox) before moving? How does it evolve after camera moving to 3d center of mug (green bbox) and facing 3d center of box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, , front, behind\nB. left, above, closer, behind, behind\nC. left, , closer, front, front\nD. left, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007123/000.jpg", + "spar_bench/sample_007123/001.jpg", + "spar_bench/sample_007123/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7124, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of table (red bbox) relative to chair (yellow bbox) change when observer relocates to chair (green bbox) and face box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , above, closer, front, front\nB. left, , closer, behind, front\nC. left, , farther, front, front\nD. left, , farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007124/000.jpg", + "spar_bench/sample_007124/001.jpg", + "spar_bench/sample_007124/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7125, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of office chair (red bbox) and cup (yellow bbox) shift in the observer\u2019s view after observer moving to table (green bbox) and focusing on office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , above, farther, front, front\nB. right, , farther, front, front\nC. right, below, , behind, behind\nD. right, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007125/000.jpg", + "spar_bench/sample_007125/001.jpg", + "spar_bench/sample_007125/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7126, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between window (red bbox) and cable (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to keyboard (green bbox) and orienting towards cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, below, , behind, behind\nB. left, below, farther, front, front\nC. left, , farther, front, behind\nD. , below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007126/000.jpg", + "spar_bench/sample_007126/001.jpg", + "spar_bench/sample_007126/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7127, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of chair (red bbox) and chair (yellow bbox) initially, and how does this relationship change after observer relocating to blackboard (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , farther, behind, front\nB. left, , closer, front, behind\nC. left, , closer, front, front\nD. right, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007127/000.jpg", + "spar_bench/sample_007127/001.jpg", + "spar_bench/sample_007127/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7128, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of power socket (red bbox) and shelf (yellow bbox) shift in the observer\u2019s view after observer moving to board (green bbox) and focusing on table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, above, farther, behind, \nB. right, below, closer, front, front\nC. left, above, , front, behind\nD. right, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007128/000.jpg", + "spar_bench/sample_007128/001.jpg", + "spar_bench/sample_007128/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7129, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between cable tray (red bbox) and pipe (yellow bbox) as seen initially and after the observer moves to pipe (green bbox) and focuses on cable tray (blue bbox). Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. , above, farther, front, front\nB. left, below, , front, behind\nC. left, below, farther, front, front\nD. left, below, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007129/000.jpg", + "spar_bench/sample_007129/001.jpg", + "spar_bench/sample_007129/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7130, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of books (red bbox) and plant pot mat (yellow bbox) before and after observer relocating to guitar (green bbox) and facing spray bottle (blue bbox)? Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, below, closer, behind, front\nB. left, below, closer, front, front\nC. left, below, , front, behind\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007130/000.jpg", + "spar_bench/sample_007130/001.jpg", + "spar_bench/sample_007130/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7131, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perception of the spatial relationship between coax socket (red bbox) and coax outlet (yellow bbox) when observer relocates to cable duct (green bbox) and face power sockets (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, closer, behind, front\nB. left, above, closer, behind, front\nC. right, below, closer, front, \nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007131/000.jpg", + "spar_bench/sample_007131/001.jpg", + "spar_bench/sample_007131/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7132, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between picture (red bbox) and split (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to kitchen cabinet (green bbox) and orienting towards kitchen cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Ensure your answer aligns with the observer's perspective, designating the first image as the main view before moving forward. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, above, closer, front, \nB. right, below, farther, behind, front\nC. left, below, closer, front, front\nD. left, above, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007132/000.jpg", + "spar_bench/sample_007132/001.jpg", + "spar_bench/sample_007132/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7133, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial alignment of chair (red bbox) and chair (yellow bbox) from the observer\u2019s perspective? How does it change after observer moving to curtain rail (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. left, below, farther, , behind\nB. left, below, farther, behind, front\nC. left, above, farther, front, front\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007133/000.jpg", + "spar_bench/sample_007133/001.jpg", + "spar_bench/sample_007133/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7134, + "data_source": "SPAR-Bench", + "question": "What changes in the observer\u2019s perception of the spatial relationship between keyboard (red bbox) and multiplug (yellow bbox) when observer relocates to portable speaker (green bbox) and face monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your response from the observer's perspective, ensuring the first image is used as the main view before movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, farther, front, front\nB. left, above, closer, front, front\nC. left, below, farther, behind, front\nD. right, above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007134/000.jpg", + "spar_bench/sample_007134/001.jpg", + "spar_bench/sample_007134/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7135, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between window (red bbox) and bottle (yellow bbox) as seen initially and after the observer moves to toothpaste (green bbox) and focuses on bathroom cabinet (blue bbox). Calculate or judge based on the 3D center points of these objects. Provide your answer from the observer's point of view, with the first image set as the main view before the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , above, farther, front, front\nB. left, , farther, behind, behind\nC. right, , farther, front, behind\nD. left, above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007135/000.jpg", + "spar_bench/sample_007135/001.jpg", + "spar_bench/sample_007135/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7136, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to office chair (green bbox) and orientation towards light switch (blue bbox) affect the spatial perception of office chair (red bbox) and office chair (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. left, above, closer, front, front\nB. left, above, closer, front, \nC. left, above, farther, behind, \nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007136/000.jpg", + "spar_bench/sample_007136/001.jpg", + "spar_bench/sample_007136/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7137, + "data_source": "SPAR-Bench", + "question": "Describe the spatial configuration of books (red bbox) relative to bookshelf (yellow bbox) as initially seen by the observer and how this changes after observer moving to books (green bbox) and facing book (blue bbox). Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, above, farther, behind, front\nB. right, , farther, front, front\nC. left, , farther, front, front\nD. right, above, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007137/000.jpg", + "spar_bench/sample_007137/001.jpg", + "spar_bench/sample_007137/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7138, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perception of the spatial positioning of computer tower (red bbox) and heater (yellow bbox) change when observer relocates to computer tower (green bbox) and face computer tower (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , above, closer, front, front\nB. right, above, farther, , front\nC. , above, farther, front, behind\nD. left, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007138/000.jpg", + "spar_bench/sample_007138/001.jpg", + "spar_bench/sample_007138/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7139, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of chair (red bbox) and blanket (yellow bbox) shift in the observer\u2019s view after observer moving to shoes (green bbox) and focusing on suitcase (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, closer, front, \nB. right, , closer, front, front\nC. right, above, closer, front, \nD. right, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007139/000.jpg", + "spar_bench/sample_007139/001.jpg", + "spar_bench/sample_007139/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7140, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to book (green bbox) and orientation towards books (blue bbox) influence the observer\u2019s view of the spatial relationship between books (red bbox) and book (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, closer, behind, front\nB. , below, closer, behind, behind\nC. left, above, farther, front, behind\nD. , below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007140/000.jpg", + "spar_bench/sample_007140/001.jpg", + "spar_bench/sample_007140/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7141, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of ball (red bbox) relative to window (yellow bbox) change when observer relocates to keyboard (green bbox) and face cabinet (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, below, closer, behind, front\nB. right, above, closer, front, behind\nC. , below, farther, front, front\nD. right, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007141/000.jpg", + "spar_bench/sample_007141/001.jpg", + "spar_bench/sample_007141/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7142, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between box (red bbox) and chair (yellow bbox) as observed before and after observer relocating to mug (green bbox) and facing table (blue bbox). Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, farther, front, front\nB. left, above, farther, , front\nC. left, , closer, front, behind\nD. left, above, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007142/000.jpg", + "spar_bench/sample_007142/001.jpg", + "spar_bench/sample_007142/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7143, + "data_source": "SPAR-Bench", + "question": "Describe the positional dynamics of book (red bbox) relative to file (yellow bbox) before and after the observer moves to the center of picture (green bbox) and faces window (blue bbox). Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, above, farther, front, front\nB. , above, closer, front, front\nC. right, above, closer, front, front\nD. right, below, farther, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007143/000.jpg", + "spar_bench/sample_007143/001.jpg", + "spar_bench/sample_007143/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7144, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of stool (red bbox) in relation to bench (yellow bbox)? How does this orientation shift after the observer moves to stool (green bbox) and faces bench (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, closer, , behind\nB. right, below, closer, front, behind\nC. right, , farther, behind, behind\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007144/000.jpg", + "spar_bench/sample_007144/001.jpg", + "spar_bench/sample_007144/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7145, + "data_source": "SPAR-Bench", + "question": "What is the change in the spatial interaction between pen (red bbox) and whiteboard eraser (yellow bbox) from the observer\u2019s view after observer moves to cable (green bbox) and focus on monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, closer, behind, front\nB. right, below, , front, front\nC. left, below, closer, front, behind\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007145/000.jpg", + "spar_bench/sample_007145/001.jpg", + "spar_bench/sample_007145/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7146, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial configuration of utensils (red bbox) and coffee maker (yellow bbox) as seen by the observer? How does this configuration change upon observer moving to window sill (green bbox) and facing cup (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, farther, front, front\nB. left, above, closer, front, behind\nC. left, , farther, front, behind\nD. left, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007146/000.jpg", + "spar_bench/sample_007146/001.jpg", + "spar_bench/sample_007146/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7147, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between shelf (red bbox) and bed (yellow bbox) appear from the observer's perspective? After observer relocating to plant pot (green bbox) and orienting towards armchair (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, above, farther, front, front\nB. right, above, closer, front, behind\nC. right, above, farther, front, \nD. right, above, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007147/000.jpg", + "spar_bench/sample_007147/001.jpg", + "spar_bench/sample_007147/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7148, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s movement to bottle (green bbox) and orientation towards roof (blue bbox) affect the spatial perception of kitchen cabinet (red bbox) and tap (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices available.\nA. right, below, , behind, front\nB. , below, farther, front, front\nC. right, , closer, front, front\nD. right, above, , front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007148/000.jpg", + "spar_bench/sample_007148/001.jpg", + "spar_bench/sample_007148/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7149, + "data_source": "SPAR-Bench", + "question": "How are kitchen cabinet (red bbox) and kitchen counter (yellow bbox) positioned from the observer\u2019s perspective? After observer relocating to bottle (green bbox) and orienting towards roof (blue bbox), what changes occur? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, above, farther, , front\nB. right, above, farther, front, front\nC. right, above, farther, behind, front\nD. left, above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007149/000.jpg", + "spar_bench/sample_007149/001.jpg", + "spar_bench/sample_007149/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7150, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between hole puncher (red bbox) and monitor (yellow bbox) as seen initially and after the observer moves to cable (green bbox) and focuses on cabinet (blue bbox). Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. left, , farther, front, behind\nB. right, below, closer, front, front\nC. , below, closer, behind, front\nD. right, below, closer, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007150/000.jpg", + "spar_bench/sample_007150/001.jpg", + "spar_bench/sample_007150/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7151, + "data_source": "SPAR-Bench", + "question": "Describe the spatial interplay between box (red bbox) and office chair (yellow bbox) from the observer\u2019s viewpoint before and after observer moving to the center of window frame (green bbox) and facing table (blue bbox). Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , above, closer, front, behind\nB. right, below, closer, front, front\nC. right, , closer, front, behind\nD. right, below, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007151/000.jpg", + "spar_bench/sample_007151/001.jpg", + "spar_bench/sample_007151/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7152, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the relationship between bag (red bbox) and kitchen cabinet (yellow bbox) transform upon observer moving to plate (green bbox) and facing table (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, below, farther, front, front\nB. left, below, closer, behind, front\nC. left, , farther, front, front\nD. left, , closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007152/000.jpg", + "spar_bench/sample_007152/001.jpg", + "spar_bench/sample_007152/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7153, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between cardboard box (red bbox) and pipe (yellow bbox) as seen initially and after the observer moves to laboratory equipment (green bbox) and focuses on window frame (blue bbox). Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. right, below, closer, behind, \nB. right, above, closer, behind, front\nC. right, , farther, front, front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007153/000.jpg", + "spar_bench/sample_007153/001.jpg", + "spar_bench/sample_007153/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7154, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perception of the spatial positioning of chair (red bbox) and objects (yellow bbox) change when observer relocates to windowsill (green bbox) and face table (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, , farther, behind, front\nB. right, above, farther, behind, \nC. , below, farther, behind, front\nD. left, below, farther, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007154/000.jpg", + "spar_bench/sample_007154/001.jpg", + "spar_bench/sample_007154/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7155, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial arrangement of printer (red bbox) and shelf (yellow bbox) differ after observer moving to table (green bbox) and facing box (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right answer from the options available.\nA. right, below, farther, front, behind\nB. left, below, farther, front, behind\nC. right, , farther, front, front\nD. right, above, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007155/000.jpg", + "spar_bench/sample_007155/001.jpg", + "spar_bench/sample_007155/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7156, + "data_source": "SPAR-Bench", + "question": "How does the spatial perception of machine (red bbox) and machine (yellow bbox) shift when the observer moves to picture (green bbox) and focuses on lamp (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. right, , farther, front, front\nB. , above, farther, front, front\nC. right, above, farther, front, behind\nD. , above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007156/000.jpg", + "spar_bench/sample_007156/001.jpg", + "spar_bench/sample_007156/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7157, + "data_source": "SPAR-Bench", + "question": "What is the observer\u2019s perspective of shoes (red bbox) and shoes (yellow bbox) before and after observer relocating to suitcase (green bbox) and facing blanket (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, above, farther, behind, front\nB. left, above, closer, front, front\nC. left, below, closer, front, front\nD. right, below, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007157/000.jpg", + "spar_bench/sample_007157/001.jpg", + "spar_bench/sample_007157/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7158, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between helmet (red bbox) and sofa chair (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to SPLIT (green bbox) and orienting towards bicycle (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate option from the choices provided.\nA. left, , farther, behind, behind\nB. left, , closer, behind, behind\nC. right, below, closer, , front\nD. right, , farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007158/000.jpg", + "spar_bench/sample_007158/001.jpg", + "spar_bench/sample_007158/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7159, + "data_source": "SPAR-Bench", + "question": "From the perspective of the observer, how does the relative positioning of mug (red bbox) and keyboard (yellow bbox) evolve after observer moving to outlet (green bbox) and facing computer tower (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , below, closer, front, behind\nB. right, above, closer, front, front\nC. right, above, closer, behind, \nD. left, above, closer, behind, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007159/000.jpg", + "spar_bench/sample_007159/001.jpg", + "spar_bench/sample_007159/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7160, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s viewpoint, what is the relative position of chair (red bbox) to window (yellow bbox) initially, and how does this position change after observer relocating to chair (green bbox) and facing chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, below, farther, behind, \nB. left, below, closer, front, \nC. left, above, , front, front\nD. left, below, closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007160/000.jpg", + "spar_bench/sample_007160/001.jpg", + "spar_bench/sample_007160/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7161, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to sink counter (green bbox) and orientation towards picture (blue bbox) influence the observer\u2019s view of the spatial relationship between kitchen cabinet (red bbox) and reflection (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Please respond from the observer's perspective, with the first image serving as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. left, above, farther, front, front\nB. right, , closer, front, behind\nC. left, , closer, front, front\nD. left, , closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007161/000.jpg", + "spar_bench/sample_007161/001.jpg", + "spar_bench/sample_007161/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7162, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between cabinet (red bbox) and coffee machine (yellow bbox) appear from the observer's perspective? After observer relocating to table (green bbox) and orienting towards table (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, below, farther, behind, front\nB. right, , closer, behind, front\nC. right, below, closer, , front\nD. right, below, , behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007162/000.jpg", + "spar_bench/sample_007162/001.jpg", + "spar_bench/sample_007162/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7163, + "data_source": "SPAR-Bench", + "question": "Initially, where does bottle crate (red bbox) appear in relation to whiteboard (yellow bbox) from the observer\u2019s perspective? How does this perception shift after observer moving to box (green bbox) and orienting towards bottle crate (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, farther, , behind\nB. right, , closer, front, behind\nC. left, , farther, behind, behind\nD. left, below, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007163/000.jpg", + "spar_bench/sample_007163/001.jpg", + "spar_bench/sample_007163/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7164, + "data_source": "SPAR-Bench", + "question": "How does the spatial interaction between box (red bbox) and armchair (yellow bbox) change from the observer\u2019s perspective after observer moving to plant pot (green bbox) and focusing on pillow (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , below, farther, front, front\nB. left, above, farther, front, front\nC. left, , farther, behind, front\nD. left, above, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007164/000.jpg", + "spar_bench/sample_007164/001.jpg", + "spar_bench/sample_007164/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7165, + "data_source": "SPAR-Bench", + "question": "Describe the initial spatial relationship between table (red bbox) and chair (yellow bbox). How does this change from the observer\u2019s perspective after observer moving to book (green bbox) and facing laptop (blue bbox)? Calculate or judge based on the 3D center points of these objects. Consider the observer's perspective in your answer, treating the first image as the main view before making a move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. right, , farther, front, front\nB. right, above, farther, front, front\nC. , above, farther, front, front\nD. left, below, farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007165/000.jpg", + "spar_bench/sample_007165/001.jpg", + "spar_bench/sample_007165/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7166, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial arrangement of shoes (red bbox) and chair (yellow bbox) differ after observer moving to suitcase (green bbox) and facing blanket (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, , front, front\nB. right, below, closer, , front\nC. right, below, , behind, front\nD. , below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007166/000.jpg", + "spar_bench/sample_007166/001.jpg", + "spar_bench/sample_007166/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7167, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial positioning of pillow (red bbox) and box (yellow bbox) from the observer\u2019s viewpoint? How does it alter after observer moving to plant pot (green bbox) and orienting towards table mat (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. , below, farther, behind, behind\nB. left, above, , front, front\nC. right, below, farther, front, front\nD. left, below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007167/000.jpg", + "spar_bench/sample_007167/001.jpg", + "spar_bench/sample_007167/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7168, + "data_source": "SPAR-Bench", + "question": "Initially, what is the observer\u2019s understanding of the relationship between backpack (red bbox) and picture (yellow bbox)? How does this understanding change after observer moving to cabinet (green bbox) and orienting towards light switch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. right, , farther, front, behind\nB. , below, closer, front, behind\nC. , above, closer, behind, behind\nD. left, below, , behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007168/000.jpg", + "spar_bench/sample_007168/001.jpg", + "spar_bench/sample_007168/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7169, + "data_source": "SPAR-Bench", + "question": "How does the spatial orientation of table (red bbox) and window (yellow bbox) shift in the observer\u2019s view after observer moving to paper towel (green bbox) and focusing on mouse (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer the question while keeping the observer's perspective in focus, with the first image as the initial main view. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , closer, behind, behind\nB. left, , closer, front, front\nC. , below, farther, behind, front\nD. left, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007169/000.jpg", + "spar_bench/sample_007169/001.jpg", + "spar_bench/sample_007169/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7170, + "data_source": "SPAR-Bench", + "question": "How does the observer movement to alligator clips (green bbox) and orientation towards water pipe (blue bbox) influence the observer\u2019s view of the spatial relationship between laboratory cabinet (red bbox) and sink (yellow bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. , below, closer, behind, front\nB. , above, closer, behind, front\nC. right, below, closer, front, front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007170/000.jpg", + "spar_bench/sample_007170/001.jpg", + "spar_bench/sample_007170/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7171, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between reflection (red bbox) and heater (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to paper towels (green bbox) and orienting towards light switch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. right, below, , front, front\nB. left, above, closer, behind, behind\nC. left, above, , front, front\nD. left, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007171/000.jpg", + "spar_bench/sample_007171/001.jpg", + "spar_bench/sample_007171/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7172, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the relationship between blanket (red bbox) and switch (yellow bbox) transform upon observer moving to sofa chair (green bbox) and facing box (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, closer, front, front\nB. , below, closer, front, behind\nC. left, below, closer, front, front\nD. left, above, , front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007172/000.jpg", + "spar_bench/sample_007172/001.jpg", + "spar_bench/sample_007172/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7173, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between book (red bbox) and book (yellow bbox) evolve after observer moving to book (green bbox) and orienting towards book (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, below, closer, behind, front\nB. right, below, , front, front\nC. right, below, farther, behind, \nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007173/000.jpg", + "spar_bench/sample_007173/001.jpg", + "spar_bench/sample_007173/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7174, + "data_source": "SPAR-Bench", + "question": "Before moving to cardboard box (green bbox), what is the observer\u2019s perspective of the relationship between cardboard box (red bbox) and cardboard box (yellow bbox)? How does this perspective shift after observer relocating and orienting towards monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. left, , closer, front, behind\nB. , above, farther, behind, behind\nC. right, above, closer, front, front\nD. right, below, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007174/000.jpg", + "spar_bench/sample_007174/001.jpg", + "spar_bench/sample_007174/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7175, + "data_source": "SPAR-Bench", + "question": "Describe the spatial dynamics between power socket (red bbox) and office chair (yellow bbox) as seen initially and after the observer moves to office chair (green bbox) and focuses on power socket (blue bbox). Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the right response from the choices provided.\nA. left, , farther, front, front\nB. right, , farther, behind, behind\nC. left, below, farther, behind, behind\nD. right, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007175/000.jpg", + "spar_bench/sample_007175/001.jpg", + "spar_bench/sample_007175/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7176, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, what is the relationship between air conditioner (red bbox) and windowframe (yellow bbox) before moving? How does it evolve after camera moving to 3d center of table (green bbox) and facing 3d center of monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. right, above, farther, front, behind\nB. left, , closer, behind, behind\nC. left, below, farther, , behind\nD. left, below, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007176/000.jpg", + "spar_bench/sample_007176/001.jpg", + "spar_bench/sample_007176/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7177, + "data_source": "SPAR-Bench", + "question": "Describe the relationship between blinds (red bbox) and laptop (yellow bbox) as initially seen by the observer and how it changes upon observer moving to blinds (green bbox) and focusing on paper rack (blue bbox). Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, farther, front, front\nB. , above, closer, front, behind\nC. right, below, farther, behind, front\nD. right, above, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007177/000.jpg", + "spar_bench/sample_007177/001.jpg", + "spar_bench/sample_007177/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7178, + "data_source": "SPAR-Bench", + "question": "Before moving to cabinet (green bbox), what is the observer\u2019s perspective of the relationship between picture (red bbox) and picture (yellow bbox)? How does this perspective shift after observer relocating and orienting towards light switch (blue bbox)? Calculate or judge based on the 3D center points of these objects. Your answer should reflect the observer's perspective, where the first image is regarded as the main view prior to moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right option from the choices provided.\nA. left, , closer, front, front\nB. right, , closer, behind, behind\nC. right, below, farther, , front\nD. right, , closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007178/000.jpg", + "spar_bench/sample_007178/001.jpg", + "spar_bench/sample_007178/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7179, + "data_source": "SPAR-Bench", + "question": "Initially, what is the spatial orientation of power socket (red bbox) in relation to machine (yellow bbox)? How does this orientation shift after the observer moves to picture (green bbox) and faces pipe (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. , above, closer, front, front\nB. right, above, , front, front\nC. right, above, farther, front, \nD. left, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007179/000.jpg", + "spar_bench/sample_007179/001.jpg", + "spar_bench/sample_007179/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7180, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between power socket (red bbox) and paper stapler (yellow bbox) evolve after observer moving to table (green bbox) and orienting towards box (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. right, below, closer, front, \nB. left, below, closer, front, behind\nC. left, , closer, behind, front\nD. right, below, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007180/000.jpg", + "spar_bench/sample_007180/001.jpg", + "spar_bench/sample_007180/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7181, + "data_source": "SPAR-Bench", + "question": "Describe the positional dynamics of lamp (red bbox) relative to table (yellow bbox) before and after the observer moves to the center of curtain (green bbox) and faces box (blue bbox). Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, above, farther, behind, \nB. left, above, closer, front, front\nC. left, below, farther, behind, \nD. right, above, closer, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007181/000.jpg", + "spar_bench/sample_007181/001.jpg", + "spar_bench/sample_007181/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7182, + "data_source": "SPAR-Bench", + "question": "Initially, where does plug (red bbox) appear in relation to telephone (yellow bbox) from the observer\u2019s perspective? How does this perception shift after observer moving to whiteboard (green bbox) and orienting towards monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. , above, closer, front, front\nB. left, , farther, behind, front\nC. , below, farther, front, behind\nD. left, below, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007182/000.jpg", + "spar_bench/sample_007182/001.jpg", + "spar_bench/sample_007182/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7183, + "data_source": "SPAR-Bench", + "question": "How are pipe (red bbox) and pipe (yellow bbox) spatially related from the observer\u2019s perspective? What changes occur after observer relocating to pipe (green bbox) and orienting towards pipe (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. right, above, , front, behind\nB. left, , farther, front, behind\nC. left, above, farther, behind, behind\nD. right, , farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007183/000.jpg", + "spar_bench/sample_007183/001.jpg", + "spar_bench/sample_007183/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7184, + "data_source": "SPAR-Bench", + "question": "Initially, where does powerstrip (red bbox) appear in relation to box (yellow bbox) from the observer\u2019s perspective? How does this perception shift after observer moving to bookshelf (green bbox) and orienting towards computer tower (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. , below, closer, front, behind\nB. left, above, , front, behind\nC. , below, , front, front\nD. left, , farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007184/000.jpg", + "spar_bench/sample_007184/001.jpg", + "spar_bench/sample_007184/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7185, + "data_source": "SPAR-Bench", + "question": "How are the relative positions of pen (red bbox) and laundry hamper (yellow bbox) perceived from the observer\u2019s initial viewpoint, and what changes after observer moves to receipt (green bbox) and orient towards clothes (blue bbox)? Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct option from the available choices.\nA. left, below, closer, front, front\nB. left, , farther, behind, front\nC. left, below, , front, front\nD. , below, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007185/000.jpg", + "spar_bench/sample_007185/001.jpg", + "spar_bench/sample_007185/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7186, + "data_source": "SPAR-Bench", + "question": "What does the observer initially perceive as the spatial relationship between toilet (red bbox) and toothbrush holder (yellow bbox)? How does this perception alter upon observer relocating to toilet flush button (green bbox) and focusing on toilet paper holder (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, below, farther, , behind\nB. left, below, , front, behind\nC. left, below, closer, front, behind\nD. right, below, closer, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007186/000.jpg", + "spar_bench/sample_007186/001.jpg", + "spar_bench/sample_007186/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7187, + "data_source": "SPAR-Bench", + "question": "Initially, where does remote controller (red bbox) appear in relation to shelf (yellow bbox) from the observer\u2019s perspective? How does this perception shift after observer moving to SPLIT (green bbox) and orienting towards bicycle (blue bbox)? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. right, above, farther, , behind\nB. right, below, farther, front, front\nC. right, , closer, front, front\nD. right, above, closer, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007187/000.jpg", + "spar_bench/sample_007187/001.jpg", + "spar_bench/sample_007187/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7188, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between chair (red bbox) and table (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to refrigerator (green bbox) and orienting towards arm chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct answer from the given choices.\nA. left, , closer, front, front\nB. right, , closer, behind, behind\nC. right, above, closer, , front\nD. left, above, farther, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007188/000.jpg", + "spar_bench/sample_007188/001.jpg", + "spar_bench/sample_007188/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7189, + "data_source": "SPAR-Bench", + "question": "What is the initial spatial positioning of chair (red bbox) and books (yellow bbox) from the observer\u2019s viewpoint? How does it alter after observer moving to blackboard (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Please base your response on the observer's perspective, using the first image as the primary view before moving. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, farther, front, behind\nB. right, below, , front, behind\nC. left, below, farther, front, front\nD. right, above, farther, front, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007189/000.jpg", + "spar_bench/sample_007189/001.jpg", + "spar_bench/sample_007189/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7190, + "data_source": "SPAR-Bench", + "question": "Describe the initial and subsequent spatial relationships between decoration (red bbox) and plant (yellow bbox) as observed before and after observer relocating to decoration (green bbox) and facing foldable closet (blue bbox). Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate option from the given choices.\nA. right, below, closer, front, front\nB. right, , closer, front, behind\nC. right, below, , front, behind\nD. right, above, , behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007190/000.jpg", + "spar_bench/sample_007190/001.jpg", + "spar_bench/sample_007190/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7191, + "data_source": "SPAR-Bench", + "question": "From the observer\u2019s perspective, how does the spatial orientation of toilet paper holder (red bbox) relative to towel (yellow bbox) change when observer relocates to toothbrush holder (green bbox) and face sink (blue bbox)? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , below, farther, front, front\nB. right, , closer, behind, front\nC. left, below, closer, behind, front\nD. left, below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007191/000.jpg", + "spar_bench/sample_007191/001.jpg", + "spar_bench/sample_007191/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7192, + "data_source": "SPAR-Bench", + "question": "What is the initial relationship between whiteboard eraser (red bbox) and chair (yellow bbox) as seen by the observer? How does this relationship transform after observer moving to paper (green bbox) and orienting towards chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. right, above, farther, front, front\nB. left, , farther, front, front\nC. right, above, closer, front, \nD. right, above, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007192/000.jpg", + "spar_bench/sample_007192/001.jpg", + "spar_bench/sample_007192/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7193, + "data_source": "SPAR-Bench", + "question": "How does the spatial relationship between pipe (red bbox) and power socket (yellow bbox) appear from the observer's perspective? After observer relocating to laboratory equipment (green bbox) and orienting towards window frame (blue bbox), what changes? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the appropriate response from the given choices.\nA. left, above, closer, front, \nB. left, above, closer, front, front\nC. left, below, closer, front, front\nD. left, below, farther, , behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007193/000.jpg", + "spar_bench/sample_007193/001.jpg", + "spar_bench/sample_007193/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7194, + "data_source": "SPAR-Bench", + "question": "From the observer's point of view, what is the spatial positioning of power socket (red bbox) and heater (yellow bbox) initially, and how does this relationship change after observer relocating to windowframe (green bbox) and facing monitor (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the right response from the available choices.\nA. , above, farther, front, behind\nB. left, above, , behind, front\nC. left, above, farther, front, front\nD. , below, farther, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007194/000.jpg", + "spar_bench/sample_007194/001.jpg", + "spar_bench/sample_007194/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7195, + "data_source": "SPAR-Bench", + "question": "How does the spatial interaction between box (red bbox) and power socket (yellow bbox) change from the observer\u2019s perspective after observer moving to whiteboard (green bbox) and focusing on bottle crate (blue bbox)? Calculate or judge based on the 3D center points of these objects. Keep the observer's perspective in mind when answering, with the first image chosen as the main view before any move. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. right, , closer, behind, front\nB. , below, farther, front, behind\nC. right, , farther, behind, behind\nD. left, above, closer, front, \nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007195/000.jpg", + "spar_bench/sample_007195/001.jpg", + "spar_bench/sample_007195/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7196, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perception of the spatial positioning of heater (red bbox) and desk (yellow bbox) change when observer relocates to window sill (green bbox) and face office chair (blue bbox)? Calculate or judge based on the 3D center points of these objects. Base your response on the observer's perspective, with the first image defined as the primary view before movement begins. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate answer from the options given.\nA. left, , closer, front, front\nB. right, below, closer, front, behind\nC. right, below, closer, front, front\nD. right, , closer, behind, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007196/000.jpg", + "spar_bench/sample_007196/001.jpg", + "spar_bench/sample_007196/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7197, + "data_source": "SPAR-Bench", + "question": "Describe the positional dynamics of blanket (red bbox) relative to mattress (yellow bbox) before and after the observer moves to the center of chair (green bbox) and faces instant pot (blue bbox). Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nPick the correct answer from the choices provided.\nA. , below, farther, front, behind\nB. left, above, farther, front, front\nC. left, below, farther, , front\nD. left, above, farther, front, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007197/000.jpg", + "spar_bench/sample_007197/001.jpg", + "spar_bench/sample_007197/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7198, + "data_source": "SPAR-Bench", + "question": "How does the observer\u2019s perspective on the relationship between table (red bbox) and paper (yellow bbox) evolve after observer moving to poster (green bbox) and orienting towards plates (blue bbox)? Calculate or judge based on the 3D center points of these objects. The answer should reflect the observer's perspective, with the first image chosen as the main view before any action. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nChoose the appropriate option from the choices provided.\nA. right, below, closer, front, front\nB. right, below, farther, front, front\nC. right, , farther, front, front\nD. , below, closer, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007198/000.jpg", + "spar_bench/sample_007198/001.jpg", + "spar_bench/sample_007198/002.jpg" + ], + "data_type": "multi_view", + "answer": "C", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7199, + "data_source": "SPAR-Bench", + "question": "Initially, what does the observer perceive as the spatial relationship between chair (red bbox) and joined tables (yellow bbox)? What changes when observer moves to chair (green bbox) and face window (blue bbox)? Calculate or judge based on the 3D center points of these objects. The response should be from the observer's perspective, using the first image as the main view prior to any movement. Please use the world coordinate system to determine the up and down position relationship of objects.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between two objects in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), closer-farther (closer, farther, or empty if indistinguishable), the first object is in front of or behind the observer (front, behind, or empty if indistinguishable), the second object is in front of or behind the observer (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, farther, behind, front\nB. right, below, , behind, behind\nC. left, above, farther, front, behind\nD. right, , farther, behind, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007199/000.jpg", + "spar_bench/sample_007199/001.jpg", + "spar_bench/sample_007199/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oo_mv", + "options": null, + "source": "scannetpp" + }, + { + "question_id": 7200, + "data_source": "SPAR-Bench", + "question": "Using bucket (red point) with a known depth of 2.5, calculate the absolute value of the depth difference between chair (green point) and fuse box (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Submit your response as one numeric value only.", + "image_path": [ + "spar_bench/sample_007200/000.jpg" + ], + "data_type": "single_view", + "answer": "0.7", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 7201, + "data_source": "SPAR-Bench", + "question": "Based on kitchen cabinets's (red point) depth of 2.8, compute the relative depth difference between frying pan (green point) and kitchen cabinet (blue point). Express your answer in meters. Calculate or judge based on the 3D center points of these objects. Please give a response in the form of a single number.", + "image_path": [ + "spar_bench/sample_007201/000.jpg" + ], + "data_type": "single_view", + "answer": "0.1", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 7202, + "data_source": "SPAR-Bench", + "question": "With printer (red point) at a depth of 3.6, calculate the depth difference (absolute value) between chair (green point) and sofa chair (blue point) in meters. Calculate or judge based on the 3D center points of these objects. Your input must be limited to a single number.", + "image_path": [ + "spar_bench/sample_007202/000.jpg" + ], + "data_type": "single_view", + "answer": "0.3", + "problem_type": "regression", + "original_question_type": "depth_prediction_oo", + "options": null, + "source": "scannet" + }, + { + "question_id": 7203, + "data_source": "SPAR-Bench", + "question": "What is the spatial relationship of mailboxes (red bbox) relative to the observer\u2019s initial position? How does this change after the observer moves to the center of bulletin board (green bbox) and faces mailbox (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond to the question based on the observer's perspective, where the first image represents the primary view prior to the move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. left, , front\nB. right, below, \nC. right, above, \nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007203/000.jpg", + "spar_bench/sample_007203/001.jpg", + "spar_bench/sample_007203/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7204, + "data_source": "SPAR-Bench", + "question": "What direction is oven (red bbox) from the observer initially? If the observer moves to the 3D center of frying pan (green bbox) and faces kitchen cabinet (blue bbox), where is oven now? Calculate or judge based on the 3D center points of these objects. Your response should align with the observer's perspective, taking the first image as the main view before proceeding with movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPlease select the correct option from the choices provided.\nA. left, above, front\nB. right, above, front\nC. , above, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007204/000.jpg", + "spar_bench/sample_007204/001.jpg", + "spar_bench/sample_007204/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7205, + "data_source": "SPAR-Bench", + "question": "Where does cabinet (red bbox) lie in relation to the observer initially, and how does the relationship change after the observer moves to stools 3D center (green bbox) and faces ladders 3D center (blue bbox)? Calculate or judge based on the 3D center points of these objects. Respond with the observer's perspective in mind, identifying the first image as the main view before any action is taken.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct response from the given choices.\nA. left, above, front\nB. left, , front\nC. , below, front\nD. right, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007205/000.jpg", + "spar_bench/sample_007205/001.jpg", + "spar_bench/sample_007205/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7206, + "data_source": "SPAR-Bench", + "question": "Before moving to the center of recycling bin (green bbox) and facing chair (blue bbox), where is desk (red bbox) located relative to the observer? After moving, how does its position change? Calculate or judge based on the 3D center points of these objects. Approach the question from the observer's perspective, with the first image considered the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nChoose the correct answer from the choices available.\nA. , below, front\nB. left, above, front\nC. left, below, \nD. left, , front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007206/000.jpg", + "spar_bench/sample_007206/001.jpg", + "spar_bench/sample_007206/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7207, + "data_source": "SPAR-Bench", + "question": "Describe the positional relationship of curtains (red bbox) to the observer before and after the observer moves to the 3D center of desk (green bbox) and faces the center of clothes (blue bbox). Calculate or judge based on the 3D center points of these objects. Focus your answer on the observer's perspective, ensuring the first image is used as the main view before any move.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the right response from the available choices.\nA. left, above, behind\nB. , below, behind\nC. right, , behind\nD. left, below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007207/000.jpg", + "spar_bench/sample_007207/001.jpg", + "spar_bench/sample_007207/002.jpg" + ], + "data_type": "multi_view", + "answer": "A", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7208, + "data_source": "SPAR-Bench", + "question": "What direction is chair (red bbox) from the observer initially? If the observer moves to the 3D center of chair (green bbox) and faces windowsill (blue bbox), where is chair now? Calculate or judge based on the 3D center points of these objects. Frame your answer with the observer's perspective, assigning the first image as the main view before any motion.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nSelect the correct response from the given choices.\nA. right, above, front\nB. left, , \nC. right, below, behind\nD. , below, behind\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007208/000.jpg", + "spar_bench/sample_007208/001.jpg", + "spar_bench/sample_007208/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7209, + "data_source": "SPAR-Bench", + "question": "Consider the observer\u2019s initial position: where is bag (red bbox) relative to the observer? After the observer moves to the center of pillow (green bbox) and faces bag (blue bbox), how does the relationship change? Calculate or judge based on the 3D center points of these objects. Answer the question considering the observer's perspective, with the first image selected as the main view before any movement.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the correct option from the choices provided.\nA. right, below, \nB. right, , behind\nC. right, below, behind\nD. , below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007209/000.jpg", + "spar_bench/sample_007209/001.jpg", + "spar_bench/sample_007209/002.jpg" + ], + "data_type": "multi_view", + "answer": "D", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + }, + { + "question_id": 7210, + "data_source": "SPAR-Bench", + "question": "What happens to the position of keyboard (red bbox) after the observer moves to the 3D center of computer tower (green bbox) and faces the center of shelf (blue bbox)? Calculate or judge based on the 3D center points of these objects. Answer with the observer's perspective in mind, selecting the first image as the primary view before the move occurs.\nFor multiple-choice questions, consider only the state after the observer has moved.\nThe options describe the spatial relationship between object and observer in terms of left-right (left, right, or empty if indistinguishable), above-below (above, below, or empty if indistinguishable), and front-behind (front, behind, or empty if indistinguishable).\nPick the appropriate answer from the options given.\nA. left, above, \nB. , above, front\nC. right, , behind\nD. left, below, front\nYour answer can only include one of options A, B, C or D.", + "image_path": [ + "spar_bench/sample_007210/000.jpg", + "spar_bench/sample_007210/001.jpg", + "spar_bench/sample_007210/002.jpg" + ], + "data_type": "multi_view", + "answer": "B", + "problem_type": "multiple choice", + "original_question_type": "spatial_imagination_oc_mv", + "options": null, + "source": "scannet" + } +] \ No newline at end of file