探索生物电阻抗技术在分析身体活动方面的潜力。
Exploring the potential of electrical bioimpedance technique for analyzing physical activity.
作者信息
Hafid Abdelakram, Zolfaghari Samaneh, Kristoffersson Annica, Folke Mia
机构信息
Division of Intelligent Future Technologies, School of Innovation, Design and Technology, Mälardalen University, Västerås, Sweden.
出版信息
Front Physiol. 2024 Dec 19;15:1515431. doi: 10.3389/fphys.2024.1515431. eCollection 2024.
INTRODUCTION
Exercise physiology investigates the complex and multifaceted human body responses to physical activity (PA). The integration of electrical bioimpedance (EBI) has emerged as a valuable tool for deepening our understanding of muscle activity during exercise.
METHOD
In this study, we investigate the potential of using the EBI technique for human motion recognition. We analyze EBI signals from the quadriceps muscle and extensor digitorum longus muscle acquired when healthy participants in the range 20-30 years of age performed four lower body PAs, namely squats, lunges, balance walk, and short jumps.
RESULTS
The characteristics of EBI signals are promising for analyzing PAs. Each evaluated PA exhibited unique EBI signal characteristics.
DISCUSSION
The variability in how PAs are executed leads to variations in the EBI signal characteristics, which, in turn, can provide insights into individual differences in how a person executes a specific PA.
引言
运动生理学研究人体对体育活动(PA)的复杂且多方面的反应。生物电阻抗(EBI)的整合已成为深化我们对运动期间肌肉活动理解的宝贵工具。
方法
在本研究中,我们探究使用EBI技术进行人体运动识别的潜力。我们分析了20至30岁健康参与者进行四种下肢体育活动(即深蹲、弓步蹲、平衡走和短跳)时从股四头肌和趾长伸肌获取的EBI信号。
结果
EBI信号的特征在分析体育活动方面很有前景。每种评估的体育活动都表现出独特的EBI信号特征。
讨论
体育活动执行方式的变异性导致EBI信号特征的变化,这反过来又可以深入了解个体在执行特定体育活动方式上的差异。
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