基于肌电图的上半身外骨骼在汽车装配过程中的疲劳评估

IF 3.4 Q2 ENGINEERING, BIOMEDICAL Wearable technologies Pub Date : 2022-09-19 eCollection Date: 2022-01-01 DOI:10.1017/wtc.2022.20
Jason C Gillette, Shekoofe Saadat, Terry Butler
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引用次数: 0

摘要

摘要:本研究的目的是评估上肢外骨骼在汽车装配过程中涉及手臂姿势升高。加拿大丰田汽车制造公司的16名团队成员安装了Levitate机身,每个团队成员在有或没有外骨骼的情况下进行了一到三个过程。共研究了16种装配工艺。收集前三角肌、肱二头肌、上斜方肌和竖脊肌的肌电图(EMG)数据。团队成员还完成了可用性调查。在整个装配过程中,外骨骼显著降低了前三角肌平均活跃肌电信号振幅(p = 0.01, Δ = - 3.2% MVC, d = 0.56中效应)和疲劳风险值(p < 0.01, Δ = - 5.1% MVC, d = 0.62中效应),而其他测试肌肉没有显著变化。9个装配过程的一个子集,在手臂高度为90°或以上(30%对24%)和135°或以上(18%对9%)时花费的时间更长,似乎从外骨骼的使用中受益更多。对于这些过程,外骨骼显著降低了前三角肌平均活跃肌电振幅(p < 0.01, Δ = - 5.1% MVC, d = 0.95大效应)和疲劳风险值(p < 0.01, Δ = - 7.4% MVC, d = 0.96大效应)。尽管有人担心外骨骼会妨碍某些工作职责,但团队成员对舒适和疲劳的好处反应积极。结果支持定量测试,将外骨骼的使用与特定的工作任务相匹配,并调查团队成员的优缺点。
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Electromyography-based fatigue assessment of an upper body exoskeleton during automotive assembly.

The purpose of this study was to assess an upper body exoskeleton during automotive assembly processes that involve elevated arm postures. Sixteen team members at Toyota Motor Manufacturing Canada were fitted with a Levitate Airframe, and each team member performed between one and three processes with and without the exoskeleton. A total of 16 assembly processes were studied. Electromyography (EMG) data were collected on the anterior deltoid, biceps brachii, upper trapezius, and erector spinae. Team members also completed a usability survey. The exoskeleton significantly reduced anterior deltoid mean active EMG amplitude (p = .01, Δ = -3.2 %MVC, d = 0.56 medium effect) and fatigue risk value (p < .01, Δ = -5.1 %MVC, d = 0.62 medium effect) across the assembly processes, with no significant changes for the other muscles tested. A subset of nine assembly processes with a greater amount of time spent in arm elevations at or above 90° (30 vs. 24%) and at or above 135° (18 vs. 9%) appeared to benefit more from exoskeleton usage. For these processes, the exoskeleton significantly reduced anterior deltoid mean active EMG amplitude (p < .01, Δ = -5.1 %MVC, d = 0.95 large effect) and fatigue risk value (p < .01, Δ = -7.4 %MVC, d = 0.96 large effect). Team members responded positively about comfort and fatigue benefits, although there were concerns about the exoskeleton hindering certain job duties. The results support quantitative testing to match exoskeleton usage with specific job tasks and surveying team members for perceived benefits/drawbacks.

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来源期刊
CiteScore
5.80
自引率
0.00%
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0
审稿时长
11 weeks
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