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Using a Multilearner to Fuse Multimodal Features for Human Action Recognition

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  • Chao Tang
  • Huosheng Hu
  • Wenjian Wang
  • Wei Li
  • Hua Peng
  • Xiaofeng Wang

Abstract

The representation and selection of action features directly affect the recognition effect of human action recognition methods. Single feature is often affected by human appearance, environment, camera settings, and other factors. Aiming at the problem that the existing multimodal feature fusion methods cannot effectively measure the contribution of different features, this paper proposed a human action recognition method based on RGB-D image features, which makes full use of the multimodal information provided by RGB-D sensors to extract effective human action features. In this paper, three kinds of human action features with different modal information are proposed: RGB-HOG feature based on RGB image information, which has good geometric scale invariance; D-STIP feature based on depth image, which maintains the dynamic characteristics of human motion and has local invariance; and S-JRPF feature-based skeleton information, which has good ability to describe motion space structure. At the same time, multiple K-nearest neighbor classifiers with better generalization ability are used to integrate decision-making classification. The experimental results show that the algorithm achieves ideal recognition results on the public G3D and CAD60 datasets.

Suggested Citation

  • Chao Tang & Huosheng Hu & Wenjian Wang & Wei Li & Hua Peng & Xiaofeng Wang, 2020. "Using a Multilearner to Fuse Multimodal Features for Human Action Recognition," Mathematical Problems in Engineering, Hindawi, vol. 2020, pages 1-18, August.
    • Handle: RePEc:hin:jnlmpe:4358728
    DOI: 10.1155/2020/4358728
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