Learning Rich Features for Gait Recognition by Integrating Skeletons and Silhouettes
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Gait recognition captures gait patterns from the walking sequence of an individual for identification. Most existing gait recognition methods learn features from silhouettes or skeletons for the robustness to clothing, carrying, and other exterior factors. The combination of the two data modalities, however, is not fully exploited. This paper proposes a simple yet effective bimodal fusion (BiFusion) network, which mines the complementary clues of skeletons and silhouettes, to learn rich features for gait identification. Particularly, the inherent hierarchical semantics of body joints in a skeleton is leveraged to design a novel Multi-scale Gait Graph (MSGG) network for the feature extraction of skeletons. Extensive experiments on CASIA-B and OUMVLP demonstrate both the superiority of the proposed MSGG network in modeling skeletons and the effectiveness of the bimodal fusion for gait recognition. Under the most challenging condition of walking in different clothes on CASIA-B, our method achieves the rank-1 accuracy of 92.1
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