Papers
arxiv:2607.03068

PixCon: Clean-Positive Contrastive Learning for Foundation-Model Semi-Supervised Segmentation

Published on Jul 3
· Submitted by
Ebenezer Tarubinga
on Jul 7

Abstract

PixCon is a semi-supervised semantic segmentation framework that uses clean-positive pixel-contrastive learning with per-class memory banks to improve accuracy over existing methods.

Semi-supervised semantic segmentation (SSSS) has long turned on one question, which pseudo-labels to trust, and answered it with ever more careful confidence filtering. Foundation backbones change the regime: with a DINOv2 teacher a strict threshold already retains a measured 98%-clean pseudo-label set, so the accuracy that remains lives not in the filter but in how the embedding space is structured by class. We propose PixCon, a clean-positive pixel-contrastive framework. PixCon maintains a per-class memory bank that admits only labeled pixels the student already classifies correctly, guaranteeing a contamination-free positive set (ρ_F=0) by construction, unlike prior contrastive SSSS banks (ReCo, U^2PL) built from confidence-filtered pseudo-labels. It is a single branch over a consistency backbone, adds no inference-time parameters, and needs no bank-specific threshold. A first-order analysis of the supervised-InfoNCE gradient explains why contamination hurts: its false-positive term scales as ρ_F/(1-ρ_F), which we measure (0.018 on Pascal, 0.106 on ADE20K) rather than assume. Across Pascal VOC, Cityscapes, and ADE20K, PixCon matches or improves a strong DINOv2-based UniMatch V2 baseline in a compute-matched one-switch protocol: it improves every Pascal-1/8 seed (a per-seed gain of about +0.2 mIoU) and its three-seed mean reaches 87.90, the published UniMatch V2-B figure. Because contamination is already rare under foundation-model teachers, our analysis indicates the ρ_F=0 guarantee acts chiefly as robustness as teachers weaken, while the accuracy gain comes from cleaner positive supervision, making clean-positive contrast a robust, low-cost default for foundation-model SSSS.

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Paper author Paper submitter
edited 1 day ago

Foundation backbones change the semi-supervised segmentation regime: with a DINOv2 teacher, a
strict confidence threshold already retains a measured ~98%-clean pseudo-label set, so the
remaining accuracy lives in how the embedding space is structured by class, not in the filter.
PixCon adds one clean-positive pixel-contrastive branch on a UniMatch V2 backbone: a per-class
memory bank admitting only labeled pixels the student already classifies correctly, giving a
contamination-free positive set (ρ_F = 0) by construction, with no inference-time parameters and
no bank-specific threshold. In a compute-matched one-switch comparison across Pascal VOC,
Cityscapes, and ADE20K it matches or improves a strong DINOv2 UniMatch V2 baseline; on Pascal-1/8
it improves every seed and its three-seed mean reaches the published UniMatch V2-B figure.

Selection_003
PixCon is level with the strongest published semi-supervised result and clears the pre-foundation-model field by a wide margin.

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