Assistive Robotics: Robotic Trajectory Planning for Upper Extremity Rehabilitation in Patients with Hemiparesis

IECON 2021 – 47th Annual Conference of the IEEE Industrial Electronics Society Pub Date : 2021-10-13 DOI:10.1109/IECON48115.2021.9589760

S. A. V. E. Silva, V. Coch, Mateus Borges de Oliveira Pinto, Vinícius Menezes de Oliveira

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Abstract

Rehabilitation of upper limb movements in patients with hemiparesis has been a longstanding struggle for physical therapy professionals. Tools such as robotically assisted therapies have shown great potential to assist in the rehabilitation process of patients. Regarding traditional rehabilitation interventions, robotic systems can provide more effective and intensive physical therapy as new interventions are now being used to assist in the rehabilitation of patients with certain movement restrictions especially after stroke. Currently, this research work aims to present a study on the trajectory planning of a robotic arm, which will be suggested to the patient in order to perform the movement for rehabilitation. Furthermore, it is intended that the trajectory can be generated in real time to better meet the patient’s movement requirements and restrictions. In view of the need for real-time trajectory generation, it is necessary that a simple model of the manipulator work area is used as a boundary and boundary condition for the task space. In parallel, there is the development of a prototype of the REHABOT robot, a mechanical project developed with components from the Cyton Gamma 1500 and Reachy robots.

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辅助机器人:偏瘫患者上肢康复的机器人轨迹规划

偏瘫患者上肢运动的康复一直是物理治疗专业人员长期奋斗的目标。机器人辅助疗法等工具在帮助患者康复过程中显示出巨大的潜力。对于传统的康复干预措施，机器人系统可以提供更有效和更密集的物理治疗，因为新的干预措施现在被用于帮助具有某些运动限制的患者的康复，特别是中风后。目前，本研究工作的目的是研究机械臂的轨迹规划，并将其建议给患者进行康复运动。此外，旨在实时生成轨迹，以更好地满足患者的运动需求和限制。考虑到实时轨迹生成的需要，有必要使用机械手工作区域的简单模型作为任务空间的边界和边界条件。与此同时，还在开发REHABOT机器人的原型，这是一个利用Cyton Gamma 1500和Reachy机器人的组件开发的机械项目。

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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IECON 2021 – 47th Annual Conference of the IEEE Industrial Electronics Society

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