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Explore the Potential of CLIP for Training-Free Open Vocabulary Semantic Segmentation
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Explore the Potential of CLIP for Training-Free Open Vocabulary Semantic Segmentation
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CLIP, as a vision-language model, has significantly advanced Open-Vocabulary Semantic Segmentation (OVSS) with its zero-shot capabilities. Despite its success, its application to OVSS faces challenges due to its initial image-level alignment training, which affects its performance in tasks requiring detailed local context. Our study delves into the impact of CLIP's [CLS] token on patch feature correlations, revealing a dominance of "global" patches that hinders local feature discrimination. To overcome this, we propose CLIPtrase, a novel training-free semantic segmentation strategy that enhances local feature awareness through recalibrated self-correlation among patches. This approach demonstrates notable improvements in segmentation accuracy and the ability to maintain semantic coherence across objects.Experiments show that we are 22.3% ahead of CLIP on average on 9 segmentation benchmarks, outperforming existing state-of-the-art training-free methods.The code are made publicly available at: https://github.com/leaves162/CLIPtrase.
Forward citations
Cited by 3 Pith papers
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SegRAG: Training-Free Retrieval-Augmented Semantic Segmentation
SegRAG augments SAM3 with class-specific point prompts retrieved via DINOv3 features and filtered by ICCD, using TSG at inference to improve open-vocabulary segmentation.
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SegRAG: Training-Free Retrieval-Augmented Semantic Segmentation
SegRAG is a training-free retrieval-augmented framework that extracts class-specific point prompts from a filtered DINOv3 feature bank to boost SAM3 semantic segmentation performance on standard and agricultural benchmarks.
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Sparse Attention for Dense Open-Vocabulary Prediction in CLIP
Replacing softmax with α-entmax in frozen CLIP's final attention layers denoises dense predictions by zeroing irrelevant token interactions, with gains proportional to baseline attention diffuseness.
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