Explainable Human-in-the-Loop Segmentation via Critic Feedback Signals

• URL: http://arxiv.org/abs/2510.09945v1
• Date: Sat, 11 Oct 2025 01:16:41 GMT
• Title: Explainable Human-in-the-Loop Segmentation via Critic Feedback Signals
• Authors: Pouya Shaeri, Ryan T. Woo, Yasaman Mohammadpour, Ariane Middel,
• Abstract summary: We propose a human-in-the-loop interactive framework that enables interventional learning through targeted human corrections of segmentation outputs.<n>We demonstrate that our framework improves segmentation accuracy by up to 9 mIoU points on challenging cubemap data.<n>This work provides a practical framework for researchers and practitioners seeking to build segmentation systems that are accurate, robust to dataset biases, data-efficient, and adaptable to real-world domains such as urban climate monitoring and autonomous driving.
• Score: 0.20999222360659608
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Segmentation models achieve high accuracy on benchmarks but often fail in real-world domains by relying on spurious correlations instead of true object boundaries. We propose a human-in-the-loop interactive framework that enables interventional learning through targeted human corrections of segmentation outputs. Our approach treats human corrections as interventional signals that show when reliance on superficial features (e.g., color or texture) is inappropriate. The system learns from these interventions by propagating correction-informed edits across visually similar images, effectively steering the model toward robust, semantically meaningful features rather than dataset-specific artifacts. Unlike traditional annotation approaches that simply provide more training data, our method explicitly identifies when and why the model fails and then systematically corrects these failure modes across the entire dataset. Through iterative human feedback, the system develops increasingly robust representations that generalize better to novel domains and resist artifactual correlations. We demonstrate that our framework improves segmentation accuracy by up to 9 mIoU points (12-15\% relative improvement) on challenging cubemap data and yields 3-4$\times$ reductions in annotation effort compared to standard retraining, while maintaining competitive performance on benchmark datasets. This work provides a practical framework for researchers and practitioners seeking to build segmentation systems that are accurate, robust to dataset biases, data-efficient, and adaptable to real-world domains such as urban climate monitoring and autonomous driving.

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