The Effects of Variable Tension Forces on Exoskeletons’ Effectiveness

Proceedings of the Human Factors and Ergonomics Society ... Annual Meeting. Human Factors and Ergonomics Society. Annual meeting Pub Date : 2023-10-31 DOI:10.1177/21695067231192533

Joseph Yun-Ming Kim, Richard Stone, M. Susan Hallbeck, Hamid Norasi

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Abstract

Exoskeletons are ergonomic devices that can support workers to improve performance and worker safety. This study created an apparatus that simulated a head-and-neck exoskeleton designed for surgeons to test the effects of varying tension forces on muscle activation (splenius capitis, splenius cervices, and erector spinae), body part discomfort, dexterity, cognition, and overall usability of the device. Eight participants were involved in twelve trials over two days and held static postures (looking down at 45° or 90°) for 20 minutes with 10-minute breaks between trials. Six trials utilized tension forces, which were recorded every two minutes and then averaged for each trial. A bivariate regression analysis ( on each metric vs. average tension forces demonstrated that increasing tension forces led to decreased muscle activity of the left splenius capitis, change in general body pain, change in neck discomfort, and the rate of discomfort developing, and improved usability scores.

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可变张力对外骨骼效能的影响

外骨骼是符合人体工程学的设备，可以帮助工人提高性能和工人的安全。本研究创建了一个模拟头颈外骨骼的装置，为外科医生设计，以测试不同张力对肌肉激活(头脾肌、颈脾肌和竖脊肌)、身体部位不适、灵活性、认知和设备的整体可用性的影响。8名参与者参加了为期两天的12次试验，并保持静态姿势(向下看45°或90°)20分钟，两次试验之间休息10分钟。六次试验使用张力，每两分钟记录一次，然后为每次试验取平均值。双变量回归分析(每个指标与平均张力的对比)表明，张力的增加导致左头脾肌肉活动的减少，全身疼痛的变化，颈部不适的变化，以及不适发展的速度的变化，并提高了可用性得分。

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 Human Factors and Ergonomics Society ... Annual Meeting. Human Factors and Ergonomics Society. Annual meeting

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