Development of a low-cost upper-body rehabilitation robot for home use.

IF 2 Q3 ENGINEERING, BIOMEDICAL Journal of Rehabilitation and Assistive Technologies Engineering Pub Date : 2024-09-27 eCollection Date: 2024-01-01 DOI:10.1177/20556683241288226
David Breton, Thierry Laliberté, Alexandre Campeau-Lecours
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Abstract

The inability to use one's hands or arms greatly restricts the ability to perform daily activities. After a developmental or acquired injury, the intensity and frequency of rehabilitation exercises are essential. To alleviate the burden on the healthcare system, robotic systems have been developed to support clinicians' interventions. However, these systems are often bulky and expensive, limiting their use to specific clinical settings and making them impractical for home use. This paper presents the development of an affordable and easy to install 2-DOF five-bar linkage robot designed to be used at home. This work aims to reduce the cost of the robot through actuation optimization, mechanical optimization and 3D printing. The architecture and links length are chosen to optimize the robot's performance in the required workspace. Using sensor feedback, impedance control algorithms and multiple types of exercise such as virtual walls guidance are implemented. Finally, a user interface was programmed to facilitate the robot's use.

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开发低成本家用上肢康复机器人。
无法使用双手或双臂会极大地限制日常活动能力。发育性或后天性损伤后,康复锻炼的强度和频率至关重要。为了减轻医疗系统的负担,人们开发了机器人系统来支持临床医生的干预。然而,这些系统往往体积庞大、价格昂贵,仅限于在特定的临床环境中使用,不适合在家中使用。本文介绍了一种经济实惠、易于安装的 2-DOF 五杆联动机器人的开发情况,该机器人专为家庭使用而设计。这项工作旨在通过执行优化、机械优化和 3D 打印降低机器人的成本。结构和链接长度的选择是为了优化机器人在所需工作空间内的性能。利用传感器反馈、阻抗控制算法和多种类型的练习(如虚拟墙引导)来实现。最后,还设计了一个用户界面,以方便机器人的使用。
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