脚踝
扭矩
康复
机器人
物理医学与康复
冲程(发动机)
计算机科学
模拟
弹道
模式(计算机接口)
培训(气象学)
医学
物理疗法
人工智能
工程类
外科
物理
人机交互
机械工程
天文
气象学
热力学
作者
Zhengdi Sun,Anle Mu,Chunbao Wang,Quanquan Liu,Fuxiang Hao,Jianjun Wei,Wei Li
标识
DOI:10.1177/09544119231197082
摘要
This paper proposes an ankle rehabilitation robot to assist hemiplegic patients with movement training. The robot consists of two symmetric mechanisms, allowing stroke survivors to execute ankle rehabilitation training based on physiological differences. LPMS-B sensors measure the range of movement (ROM) of the human ankle joint, and the results are used for control parameters of the robot. Control strategies for constant speed training mode, constant torque training mode, and combination training mode are put forth based on the hardware system of the robot. Experiments verify the feasibility of the robot for ankle rehabilitation training. Results show a maximum mean error of 0.3364° between the trajectory of the intact side and the affected side, a maximum mean error of 0.0335°/s between target speed and experimental speed, and a maximum mean error of 0.0775 N m between target torque and experimental torque. The ankle joint rehabilitation robot proposed in this paper can help patients complete the training well under the three control modes.
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