Heuristic Evaluations of Back-Support, Shoulder-Support, Handgrip-Strength Support, and Sit-Stand-Support Exoskeletons Using Universal Design Principles.

IISE transactions on occupational ergonomics and human factors Pub Date : 2025-01-01 Epub Date: 2025-03-14 DOI:10.1080/24725838.2025.2476438

Alejandra Martinez, Laura Tovar, Carla Irigoyen Amparan, Karen Gonzalez, Prajina Edayath, Priyadarshini Pennathur, Arunkumar Pennathur

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Abstract

OCCUPATIONAL APPLICATIONSOur study evaluated four occupational exoskeletons using universal design principles, and we found that the exoskeleton design needs improvement to achieve equitable use by diverse worker sets (including disabled, older, and women workers). Assembling exoskeletons for use, donning and doffing wearable devices, and disassembling them can all be difficult because of the strength, dexterity, reach, and balance requirements of users. Workers with disabilities are likely to require additional support from another person to assemble or use these devices. Exoskeleton design can be improved to provide feedback on user actions, error prevention, and recovery. Factors such as assembly and storage space demands, training needs, additional personnel to assist users, and personalization costs could pose substantial barriers in industrial adoption.

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运用通用设计原则对背部支撑、肩部支撑、手握力量支撑和坐立支撑外骨骼进行启发式评估。

职业应用我们的研究使用通用设计原则评估了四种职业外骨骼，我们发现外骨骼设计需要改进，以实现不同工人群体（包括残疾人、老年人和妇女工人）的公平使用。装配外骨骼，穿上和脱下可穿戴设备，以及拆卸它们都是困难的，因为用户的力量，灵活性，触手和平衡要求。残疾工人可能需要另一个人的额外支持来组装或使用这些设备。外骨骼设计可以改进，以提供对用户操作、错误预防和恢复的反馈。装配和存储空间需求、培训需求、辅助用户的额外人员以及个性化成本等因素可能对工业采用构成重大障碍。

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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IISE transactions on occupational ergonomics and human factors

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