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Improved Shift Graph Convolutional Network for Action Recognition With Skeleton

Chuankun Li, Shuai Li, Yanbo Gao, Lina Guo, Wanqing Li

2023IEEE Signal Processing Letters12 citationsDOI

Abstract

Shift graph convolutional network (Shift-GCN) achieves remarkable performance for skeleton based action recognition with lower computational complexity than other GCN based methods. However, the current Shift-GCN, with one spatial shift, a static mask and a local temporal convolution, cannot fully explore the spatial-temporal features among skeleton joints of different frames. In order to address these problems, an improved shift graph convolutional network (Ishift-GCN) is proposed in this letter. The Ishift-GCN consists of two parts including a bidirectional spatial shift graph convolution with a dynamic mask, and a multi-scale temporal shift graph convolution. The bidirectional spatial shift graph convolution exploits more spatial information among joints, and the dynamic mask with stronger generalization ability can learn different correlations among features of different joints for different actions. The multi-scale temporal shift graph convolution captures more temporal information by complementing the shifted features with multi-scale convolution. Furthermore, knowledge distillation is used to reduce computational complexity. Compared with Shift-GCN, the proposed Ishift-GCN achieves better results with less computation complexity on two widely used benchmarks, namely the NTU-RGB+D and UAV-Human dataset.

Topics & Concepts

Computer scienceConvolution (computer science)GraphComputationComputational complexity theoryConvolutional neural networkPattern recognition (psychology)RGB color modelArtificial intelligenceAlgorithmTheoretical computer scienceArtificial neural networkHuman Pose and Action RecognitionGait Recognition and AnalysisDiabetic Foot Ulcer Assessment and Management
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