Industrial Modeling Design of Lower Limb Rehabilitation Robot System Based on AHP and Fuzzy Evaluation

2023 8th International Conference on Control and Robotics Engineering (ICCRE) Pub Date : 2023-04-21 DOI:10.1109/ICCRE57112.2023.10155603

Yuyu Shu, Yan Xing

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Abstract

The lower limb rehabilitation robot emphasizes user experience more and more while restoring part of the patient's limb functions. Therefore, the main content of this paper is to make the lower limb rehabilitation robot more efficient, automated and human body coordinated. The purpose is to form a complete rehabilitation training, and the constructed system industrial modeling is more in line with the needs of ergonomics. This paper establishes a user model corresponding to the product. In this paper, the lower limb rehabilitation robot is divided into four parts: a cart, a robotic arm, a connecting end, and a rehabilitation device. We studied the usability features, shape, and CMF design elements of the four components. At the same time, for the four components of the lower limb rehabilitation robot, a specific design element requirements framework has been established. We use the method of combining AHP and fuzzy evaluation to redesign the original scheme, and evaluate the improved scheme and the original scheme. The improved scheme is more suitable for matching in size, more reliable, and more ergonomic in appearance.

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基于AHP和模糊评价的下肢康复机器人系统工业建模设计

下肢康复机器人在恢复患者部分肢体功能的同时，越来越强调用户体验。因此，本文的主要内容是使下肢康复机器人更加高效、自动化和人体协调。目的是形成完整的康复训练，构建的系统工业建模更符合人体工程学的需要。本文建立了与产品相对应的用户模型。本文将下肢康复机器人分为小车、机械臂、连接端和康复装置四个部分。我们研究了这四个组件的可用性特征、形状和CMF设计元素。同时，针对下肢康复机器人的四个组成部分，建立了具体的设计要素需求框架。采用层次分析法和模糊评价相结合的方法对原方案进行了重新设计，并对改进后的方案和原方案进行了评价。改进后的方案尺寸匹配更合适，可靠性更高，外观更符合人体工程学。

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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来源期刊

2023 8th International Conference on Control and Robotics Engineering (ICCRE)

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