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MF-Match: A Semi-Supervised Model for Human Action Recognition.

Tianhe Yun1, Zhangang Wang1

  • 1School of Information and Communication Engineering, Beijing Information Science and Technology University, Beijing 100101, China.

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|August 10, 2024
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Summary

This study introduces MF-Match, a semi-supervised learning algorithm for human action recognition (HAR) using radar. It effectively uses unlabeled data to improve accuracy, addressing data scarcity challenges in radar-based HAR.

Keywords:
cross domainhuman action recognitionradarsemi-supervised learning

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Area of Science:

  • Radar signal processing
  • Machine learning for sensing
  • Human-computer interaction

Background:

  • Human action recognition (HAR) using radar offers privacy-preserving, noncontact sensing independent of lighting.
  • Deep learning models for HAR require large labeled datasets, which are scarce for radar data.
  • This data scarcity hinders the advancement of radar-based HAR technology.

Purpose of the Study:

  • To address the challenge of limited labeled data in radar-based HAR.
  • To propose a semi-supervised learning algorithm that leverages unlabeled radar data.
  • To enhance the accuracy and robustness of human action recognition models.

Main Methods:

  • Developed MF-Match, a semi-supervised algorithm to generate pseudo-labels for unsupervised radar data.
  • Integrated contrastive learning to refine pseudo-label quality and minimize mislabeling impact.
  • Applied the algorithm to extract embedded human behavioral information from radar signals.

Main Results:

  • Achieved high action recognition accuracies of 86.69% and 91.48% on two radar datasets.
  • Demonstrated effectiveness using only 10% of labeled data, significantly reducing data requirements.
  • Validated the algorithm's capability to improve HAR performance despite limited labeled data.

Conclusions:

  • MF-Match effectively overcomes the data scarcity problem in radar-based HAR.
  • The proposed method enhances HAR accuracy by utilizing unlabeled data and contrastive learning.
  • This approach significantly advances the feasibility of large-scale deep model-based HAR systems.