Recognition of Human Lower Limb Motion and Muscle Fatigue Status Using a Wearable FES-sEMG System

Sensors (Basel, Switzerland) Pub Date : 2024-04-01 DOI:10.3390/s24072377

Wenbo Zhang, Ziqian Bai, Pengfei Yan, Hongwei Liu, Li Shao

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Abstract

Functional electrical stimulation (FES) devices are widely employed for clinical treatment, rehabilitation, and sports training. However, existing FES devices are inadequate in terms of wearability and cannot recognize a user’s intention to move or muscle fatigue. These issues impede the user’s ability to incorporate FES devices into their daily life. In response to these issues, this paper introduces a novel wearable FES system based on customized textile electrodes. The system is driven by surface electromyography (sEMG) movement intention. A parallel structured deep learning model based on a wearable FES device is used, which enables the identification of both the type of motion and muscle fatigue status without being affected by electrical stimulation. Five subjects took part in an experiment to test the proposed system, and the results showed that our method achieved a high level of accuracy for lower limb motion recognition and muscle fatigue status detection. The preliminary results presented here prove the effectiveness of the novel wearable FES system in terms of recognizing lower limb motions and muscle fatigue status.

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利用可穿戴 FES-sEMG 系统识别人体下肢运动和肌肉疲劳状态

功能性电刺激（FES）设备被广泛用于临床治疗、康复和运动训练。然而，现有的 FES 设备在可穿戴性方面存在不足，而且无法识别用户的运动意图或肌肉疲劳。这些问题阻碍了用户将 FES 设备融入日常生活。针对这些问题，本文介绍了一种基于定制纺织电极的新型可穿戴 FES 系统。该系统由表面肌电图（sEMG）运动意向驱动。该系统采用了基于可穿戴 FES 设备的并行结构化深度学习模型，能够识别运动类型和肌肉疲劳状态，且不受电刺激的影响。五名受试者参加了测试拟议系统的实验，结果表明我们的方法在下肢运动识别和肌肉疲劳状态检测方面达到了很高的准确度。本文介绍的初步结果证明了新型可穿戴 FES 系统在识别下肢运动和肌肉疲劳状态方面的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Sensors (Basel, Switzerland)

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