Human Centered Assistance Applications for the working environment of the future

Occupational ergonomics : the journal of the International Society for Occupational Ergonomics and Safety Pub Date : 2015-01-01 DOI:10.3233/OER-150226

Jonas Schmidtler, Verena C. Knott, C. Hölzel, K. Bengler

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引用次数: 105

Abstract

BACKGROUND: Social, technological, and legal changes imply new solutions to support the human worker in the industrial environment of the future. OBJECTIVE: Optimizing working conditions by adapting collaborative assistance systems in terms of human acceptance and well-being. The Institute of Ergonomics at the Technische Universitat Munchen (TUM) follows this approach with three novel technical solutions: Exoskeletons (Lifting Aid), collaborative robots (Cobot), and orthosis (Assembly Glove). METHODS: Fundamental scientific knowledge in cognition, anthropometrics, biomechanics, and physiology provide the basis for user-oriented designs and investigations via respiratory analysis, motion tracking, force measuring, and simulation. CONCLUSIONS: The human, with its abilities, flexibility, and knowledge, will still be the key success factor in future working environments. Hence holistic approaches that support the human in a complementary way to raise overall performance have to be evolved to handle upcoming challenges like demographic change, a diverse workforce, and high stress jobs.

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以人为本的协助应用于未来的工作环境

背景:社会、技术和法律的变化意味着在未来的工业环境中支持人类工人的新解决方案。目的:在人类接受度和幸福感方面，通过调整协作援助系统来优化工作条件。慕尼黑工业大学(TUM)的人体工程学研究所采用了三种新颖的技术解决方案:外骨骼(起重辅助)、协作机器人(Cobot)和矫形器(装配手套)。方法:认知学、人体测量学、生物力学和生理学的基础科学知识通过呼吸分析、运动跟踪、力测量和模拟为面向用户的设计和研究提供了基础。结论:在未来的工作环境中，人的能力、灵活性和知识仍将是成功的关键因素。因此，为了应对即将到来的挑战，如人口结构变化、多样化的劳动力和高压力的工作，必须发展以互补方式支持人类提高整体绩效的整体方法。

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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Occupational ergonomics : the journal of the International Society for Occupational Ergonomics and Safety

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