Instance-Guided Class Activation Mapping for Weakly Supervised Semantic Segmentation
- URL: http://arxiv.org/abs/2509.12496v1
- Date: Mon, 15 Sep 2025 22:41:44 GMT
- Title: Instance-Guided Class Activation Mapping for Weakly Supervised Semantic Segmentation
- Authors: Ali Torabi, Sanjog Gaihre, MD Mahbubur Rahman, Yaqoob Majeed,
- Abstract summary: We propose IG-CAM, a novel approach to generate high-quality, boundary-aware localization maps.<n>Our approach demonstrates superior localization accuracy, with complete object coverage and precise boundary delineation.<n>The results establish IG-CAM as a new benchmark for weakly supervised semantic segmentation.
- Score: 5.539128209356213
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: Weakly Supervised Semantic Segmentation (WSSS) addresses the challenge of training segmentation models using only image-level annotations, eliminating the need for expensive pixel-level labeling. While existing methods struggle with precise object boundary localization and often focus only on the most discriminative regions, we propose IG-CAM (Instance-Guided Class Activation Mapping), a novel approach that leverages instance-level cues and influence functions to generate high-quality, boundary-aware localization maps. Our method introduces three key innovations: (1) Instance-Guided Refinement that uses ground truth segmentation masks to guide CAM generation, ensuring complete object coverage rather than just discriminative parts; (2) Influence Function Integration that captures the relationship between training samples and model predictions, leading to more robust feature representations; and (3) Multi-Scale Boundary Enhancement that employs progressive refinement strategies to achieve sharp, precise object boundaries. IG-CAM achieves state-of-the-art performance on the PASCAL VOC 2012 dataset with an mIoU of 82.3% before post-processing, which further improves to 86.6% after applying Conditional Random Field (CRF) refinement, significantly outperforming previous WSSS methods. Our approach demonstrates superior localization accuracy, with complete object coverage and precise boundary delineation, while maintaining computational efficiency. Extensive ablation studies validate the contribution of each component, and qualitative comparisons across 600 diverse images showcase the method's robustness and generalization capability. The results establish IG-CAM as a new benchmark for weakly supervised semantic segmentation, offering a practical solution for scenarios where pixel-level annotations are unavailable or prohibitively expensive.
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