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TranSkeleton: Hierarchical Spatial–Temporal Transformer for Skeleton-Based Action Recognition

Haowei Liu, Yongcheng Liu, Yuxin Chen, Chunfeng Yuan, Bing Li, Weiming Hu

2023IEEE Transactions on Circuits and Systems for Video Technology78 citationsDOI

Abstract

In skeleton-based action recognition, it has been a dominant paradigm to extract motion features with temporal convolution and model spatial correlations with graph convolution. However, it’s difficult for temporal convolution to capture long-range dependencies effectively. Meanwhile, commonly used multi-branch graph convolution leads to high complexity. In this paper, we propose TranSkeleton, a powerful Transformer framework which neatly unifies the spatial and temporal modeling of skeleton sequences. For temporal modeling, we propose a novel partition-aggregation temporal Transformer. It works with hierarchical temporal partition and aggregation, and can capture both long-range dependencies and subtle temporal structures effectively. A difference-aware aggregation approach is designed to reduce information loss during temporal aggregation. For spatial modeling, we propose a topology-aware spatial Transformer which utilizes the prior information of human body topology to facilitate spatial correlation modeling. Extensive experiments on two challenging benchmark datasets demonstrate that TranSkeleton notably outperforms the state of the arts.

Topics & Concepts

Computer scienceTransformerArtificial intelligencePattern recognition (psychology)Action recognitionTheoretical computer scienceGraphTopology (electrical circuits)AlgorithmMathematicsCombinatoricsVoltageClass (philosophy)PhysicsQuantum mechanicsHuman Pose and Action RecognitionGait Recognition and AnalysisAnomaly Detection Techniques and Applications
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