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| Abstract: |
| Gait recognition, a promising biometric technology, relies on analyzing individuals’ walking patterns and offers a non-intrusive and convenient approach to identity verification. However, gait recognition accuracy is often compromised by external factors such as changes in viewpoint and attire, which present substantial challenges in practical applications. To enhance gait recognition performance under diverse viewpoints and complex conditions, a global-local part-shift network is proposed in this paper. This framework integrates two novel modules: the part-shift feature extractor and the dynamic feature aggregator. The part-shift feature extractor strategically shifts body parts to capture the intrinsic relationships between non-adjacent regions, enriching the recognition process with both global and local spatial features. The dynamic feature aggregator addresses long-range dependency issues by incorporating multi-range temporal modeling, effectively aggregating information across parts and time steps to achieve a more robust recognition outcome. Comprehensive experiments on the CASIA-B dataset demonstrate that the proposed global-local part-shift network delivers superior performance compared with state-of-the-art methods, highlighting its potential for practical deployment. |
| Key words: Gait Recognition Global-Local Feature Part-Shift |
| DOI:10.11916/j.issn.1005-9113.24064 |
| Clc Number:TP391.41 |
| Fund: |
