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Dynamic Spatial-temporal Hypergraph Convolutional Network for Skeleton-based Action Recognition

Shengqin Wang, Yongji Zhang, Hong Qi, Minghao Zhao, Yu Jiang

202322 citationsDOI

Abstract

Skeleton-based action recognition relies on the extraction of spatial-temporal topological information. Hypergraphs can establish prior unnatural dependencies for the skeleton. However, the existing methods only focus on the construction of spatial topology and ignore the time-point dependence. This paper proposes a dynamic spatial-temporal hypergraph convolutional network (DST-HCN) to capture spatial-temporal information for skeleton-based action recognition. DST-HCN introduces a time-point hypergraph (TPH) to learn relationships at time points. With multiple spatial static hypergraphs and dynamic TPH, our network can learn more complete spatial-temporal features. In addition, we use the high-order information fusion module (HIF) to fuse spatial-temporal information synchronously. Extensive experiments on NTU RGB+D, NTU RGB+D 120, and NW-UCLA datasets show that our model achieves state-of-the-art, especially compared with hypergraph methods.

Topics & Concepts

HypergraphComputer scienceRGB color modelArtificial intelligencePattern recognition (psychology)Skeleton (computer programming)Convolutional neural networkSpatial analysisSpatial networkFuse (electrical)Action recognitionTopology (electrical circuits)MathematicsClass (philosophy)CombinatoricsProgramming languageElectrical engineeringEngineeringStatisticsHuman Pose and Action RecognitionGait Recognition and AnalysisAnomaly Detection Techniques and Applications
Dynamic Spatial-temporal Hypergraph Convolutional Network for Skeleton-based Action Recognition | Litcius