Frontiers in Neuroscience (Apr 2024)

Multi-layer CNN-LSTM network with self-attention mechanism for robust estimation of nonlinear uncertain systems

  • Lin Liu,
  • Jun Feng,
  • Jun Feng,
  • Jiwei Li,
  • Jiwei Li,
  • Jiwei Li,
  • Wanxin Chen,
  • Wanxin Chen,
  • Wanxin Chen,
  • Zhizhong Mao,
  • Xiaowei Tan,
  • Xiaowei Tan

DOI
https://doi.org/10.3389/fnins.2024.1379495
Journal volume & issue
Vol. 18

Abstract

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IntroductionWith the help of robot technology, intelligent rehabilitation of patients with lower limb motor dysfunction caused by stroke can be realized. A key factor constraining the clinical application of rehabilitation robots is how to realize pattern recognition of human movement intentions by using the surface electromyography (sEMG) sensors to ensure unhindered human-robot interaction.MethodsA multilayer CNN-LSTM prediction network incorporating the self-attention mechanism (SAM) is proposed, in this paper, which can extract and learn the periodic and trend characteristics of the sEMG signals, and realize the accurate autoregressive prediction of the human motion information. Firstly, the multilayer CNN-LSTM network utilizes the CNN layer for initial feature extraction of data, and the LSTM network is used to improve the enhancement of the historical time-series features. Then, the SAM is used to improve the global feature extraction performance and parallel computation speed of the network.ResultsIn comparison with existing test is carried out using actual data from five healthy subjects as well as a clinical hemiplegic patient to verify the superiority and practicality of the proposed algorithm. The results show that most of the model’s prediction R > 0.9 for different motion states of healthy subjects; in the experiments oriented to the motion characteristics of patient subjects, the angle prediction results of R > 0.99 for the untrained data on the affected side, which proves that our proposed model also has a better effect on the angle prediction of the affected side.DiscussionThe main contribution of this paper is to realize continuous motion estimation of ankle joint for healthy and hemiplegic individuals under non-ideal conditions (weak sEMG signals, muscle fatigue, high muscle tension, etc.), which improves the pattern recognition accuracy and robustness of the sEMG sensor-based system.

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