Intertwined Digital Human and Robot Modeling-Driven Development of Reharob 3.0: The Quad-Arm Functional Upper Limb Rehabilitation Robot System.

IEEE ... International Conference on Rehabilitation Robotics : [proceedings] Pub Date : 2025-05-01 DOI:10.1109/ICORR66766.2025.11063149

A Toth, T Pilissy, J Kocsis, M O Bauer, D Simon, I Tavaszi, K Sandor, G Fazekas

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Abstract

Mass-produced industrial and service robots have been used to build therapeutic rehabilitation robots since the 1990s. REHAROB 1.0, the dual-arm upper limb rehabilitation robot prototype, was among the pioneers. The industrial collaborative robot is a new type of robot in terms of safety, appearance, performance, and cost, thanks to which it is proving itself in more and more applications. To take advantage of these benefits, the REHAROB 3.0 Robotic Trainer for Activities of Daily Living, also updated in its name, was designed and built using two industrial collaborative robots and two uniquely developed robotic fingers. The goal of our study was to introduce an iterative design and simulation process in which digital human modeling is intertwined with digital robot modeling, leading to an upper limb rehabilitation robot system targeting outstanding performance features such as synchronous exercising of every upper limb anatomical joint and training reaching and grasping Activities of Daily Living with real objects in a real environment.

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数字化人机建模驱动的Reharob 3.0开发：四臂功能上肢康复机器人系统。

自20世纪90年代以来，大量生产的工业和服务机器人已被用于制造治疗康复机器人。双臂上肢康复机器人原型REHAROB 1.0就是先驱者之一。工业协作机器人是一种新型的机器人，它在安全性、外观、性能和成本等方面都得到了广泛的应用。为了充分利用这些优势，REHAROB 3.0日常生活活动机器人教练（也以其名称进行了更新）的设计和制造使用了两个工业协作机器人和两个独特开发的机器人手指。我们的研究目标是引入一种迭代设计和仿真过程，将数字人体建模与数字机器人建模相结合，从而使上肢康复机器人系统具有突出的性能特征，例如同步锻炼上肢每个解剖关节，以及在真实环境中训练与真实物体的日常生活活动。

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

IEEE ... International Conference on Rehabilitation Robotics : [proceedings]

CiteScore

0.50

自引率

0.00%

发文量