Homogeneous and Heterogeneous Relational Graph for Visible-infrared Person Re-identification
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Visible-infrared person re-identification (VI Re-ID) aims to match person images between the visible and infrared modalities. Existing VI Re-ID methods mainly focus on extracting homogeneous structural relationships from a single image, while ignoring the heterogeneous correlation between cross-modality images. The homogenous and heterogeneous structured relationships are crucial to learning effective identity representation and cross-modality matching. In this paper, we separately model the homogenous structural relationship by a modality-specific graph within individual modality and then mine the heterogeneous structural correlation in these two modality-specific graphs. First, the homogeneous structured graph (HOSG) mines one-vs.-rest relation between an arbitrary node (local feature) and all the rest nodes within a visible or infrared image to learn effective identity representation. Second, to find cross-modality identity-consistent correspondence, the heterogeneous graph alignment module (HGAM) further measures the relational edge strength by route search between two-modality local node features. Third, we propose the cross-modality cross-correlation (CMCC) loss to extract the modality invariance in heterogeneous global graph representation. CMCC computes the mutual information between modalities and expels semantic redundancy. Extensive experiments on SYSU-MM01 and RegDB datasets demonstrate that our method outperforms state-of-the-arts with a gain of 13.73% and 9.45% Rank1/mAP. The code is available at https://github.com/fegnyujian/Homogeneous-and-Heterogeneous-Relational-Graph.
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