An ergonomic design method of manned cabin driven by human operation performance

Advanced Design Research Pub Date : 2023-06-01 DOI:10.1016/j.ijadr.2023.05.001

Dengkai Chen , Mengya Zhu , Yidan Qiao , Jingluan Wang , Xian Zhang

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引用次数: 1

Abstract

Manned airtight cabins are used for various applications. A well-designed airtight manned cabin can efficiently facilitate personnel tasks. However, most current research on design methods for manned airtight cabins was based on objective considerations of the physical environment. It lacked a human-based starting point to consider the relationship between human operational performance and the function of manned airtight cabins. In this study, we proposed a design method for manned enclosed cabins driven by human operational performance. By identifying the critical factors influencing human operation performance, an ergonomic design index system for a manned cabin was constructed, and three ergonomic design methods for the manned cabin were proposed. Taking a manned submersible as an example, a case analysis and methods of application verification were conducted. The proposed method can provide a reliable guarantee for maximizing the task execution ability and provide new research ideas for follow-up design and research in the field of ergonomics.

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基于人机操作性能的载人舱人机工程学设计方法

有人驾驶的气密舱用于各种应用。精心设计的密闭载人舱可以有效地方便人员执行任务。然而，目前大多数关于载人密闭舱设计方法的研究都是基于对物理环境的客观考虑。它缺乏一个以人为出发点来考虑人类操作性能与载人密闭舱功能之间的关系。在这项研究中，我们提出了一种由人类操作性能驱动的载人封闭舱的设计方法。通过识别影响载人操作性能的关键因素，构建了载人舱人机工程学设计指标体系，提出了载人舱的三种人机工程学设计方法。以载人潜水器为例，进行了实例分析和应用验证方法。所提出的方法可以为最大限度地提高任务执行能力提供可靠的保证，并为人机工程学领域的后续设计和研究提供新的研究思路。

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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Advanced Design Research

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