Soft and Hard Robotics for Movement Rehabilitation, Analysis and Modelling

2019 12th International Conference on Developments in eSystems Engineering (DeSE) Pub Date : 2019-10-01 DOI:10.1109/DeSE.2019.00179

Mae Irshaidat, M. Soufian, A. Elkurdi, S. Nefti-Meziani

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引用次数: 3

Abstract

Dementia and stroke have been considered two major causes of disability in the UK. The field of rehabilitation robotics emerged since early 90’s as a tool to assist therapists with assessing stroke and dementia patients and providing the necessary therapy. The present article aims to offer a review of how current hard robotic devices utilized in upper and lower limb rehabilitation, and how successful they were in increasing the efficiency of the recovery process. Their bottlenecks and short comes are discussed and soft robotics are presented as alternative techniques to resolve them. Novel pneumatic Muscle Actuators (pMA) capable of bending in contrary to traditional pMA are studied here. In particular, we investigate and propose a novel exoskeleton soft robotic arm, which made of several novel pMA for elbow joint rehabilitation. For this purpose, analysis, design, integration and characterization of the proposed arm are presented and geometrical and numerical models are obtained. This study shows that how our proposed exoskeleton soft robotic arm with a lower cost can increase the efficiency of rehabilitation recovery process.

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软硬机器人运动康复，分析和建模

在英国，痴呆症和中风被认为是导致残疾的两大主要原因。自90年代初以来，康复机器人领域作为辅助治疗师评估中风和痴呆患者并提供必要治疗的工具而出现。本文旨在回顾当前硬机器人设备在上肢和下肢康复中的应用情况，以及它们在提高康复过程效率方面的成功程度。讨论了它们的瓶颈和缺点，并提出了软机器人技术作为解决这些问题的替代技术。研究了一种与传统气动肌肉执行器不同的具有弯曲能力的新型气动肌肉执行器。特别地，我们研究并提出了一种新型的外骨骼柔性机械臂，该机械臂由几种新型pMA组成，用于肘关节康复。为此，对所提出的机械臂进行了分析、设计、集成和表征，并建立了几何模型和数值模型。该研究表明，我们所提出的外骨骼柔性机械臂可以以较低的成本提高康复恢复过程的效率。

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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2019 12th International Conference on Developments in eSystems Engineering (DeSE)

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