System-based Monitoring of Muscular Fatigue in Lower-Extremity Movement

Proceedings of the Annual Conference of the Prognostics and Health Management Society. Prognostics and Health Management Society. Conference Pub Date : 2023-10-26 DOI:10.36001/phmconf.2023.v15i1.3551

Samuel Bertelson, Lindsey Molina, Richard Neptune, Dragan Djurdjanovic

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Abstract

Physical fatigue accounts for many injuries in the workplace, sports arena, or battlefield. The traditional approaches to monitor fatigue rely on detecting and measuring shifts in the person’s muscular surface electromyography (sEMG) signals. However, assessing neuromuscular fatigue based purely on sEMG signals fails to account for the changing muscle dynamics during long dynamic physical tasks. To combat this dilemma, a system-based methodology has been recently developed and applied to several upper-extremity tasks. In this paper, we validate the efficacy of this novel methodology on the lower extremities during a dynamic activity. Specifically, the system-based monitoring methodology was applied to a cycling endurance task. It was statistically demonstrated that the system-based methodology resulted in a more-sensitive and less noisy metric, in comparison with an EMG-based methodology. The efficacy of the methodology was further illustrated by analyzing the inter-segmental recovering and fatiguing trends, which aligned with each muscle’s expected inter-muscle synergistic relationship.

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下肢运动中肌肉疲劳的系统监测

在工作场所、运动场或战场上，身体疲劳是造成许多伤害的原因。传统的疲劳监测方法依赖于检测和测量人的肌表面肌电图(sEMG)信号的变化。然而，单纯基于表面肌电信号评估神经肌肉疲劳并不能解释长时间动态物理任务中肌肉动力学的变化。为了克服这一困境，最近开发了一种基于系统的方法，并将其应用于一些上肢任务。在本文中，我们验证了这种新方法在动态活动期间对下肢的有效性。具体来说，基于系统的监测方法被应用于自行车耐力任务。统计表明，与基于肌电图的方法相比，基于系统的方法产生了更敏感、更少噪声的度量。通过分析节段间恢复和疲劳趋势，进一步说明了该方法的有效性，这与每个肌肉预期的肌肉间协同关系一致。

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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Proceedings of the Annual Conference of the Prognostics and Health Management Society. Prognostics and Health Management Society. Conference

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