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SwinNet: Swin Transformer drives edge-aware RGB-D and RGB-T salient object detection

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arxiv 2204.05585 v1 pith:7HVFA3UQ submitted 2022-04-12 cs.CV

SwinNet: Swin Transformer drives edge-aware RGB-D and RGB-T salient object detection

classification cs.CV
keywords featurestransformercross-modalityswinmodelobjectrgb-drgb-t
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Convolutional neural networks (CNNs) are good at extracting contexture features within certain receptive fields, while transformers can model the global long-range dependency features. By absorbing the advantage of transformer and the merit of CNN, Swin Transformer shows strong feature representation ability. Based on it, we propose a cross-modality fusion model SwinNet for RGB-D and RGB-T salient object detection. It is driven by Swin Transformer to extract the hierarchical features, boosted by attention mechanism to bridge the gap between two modalities, and guided by edge information to sharp the contour of salient object. To be specific, two-stream Swin Transformer encoder first extracts multi-modality features, and then spatial alignment and channel re-calibration module is presented to optimize intra-level cross-modality features. To clarify the fuzzy boundary, edge-guided decoder achieves inter-level cross-modality fusion under the guidance of edge features. The proposed model outperforms the state-of-the-art models on RGB-D and RGB-T datasets, showing that it provides more insight into the cross-modality complementarity task.

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