电缆驱动脑瘫康复机器人的运动学分析与研制

IF 2.3 4区 计算机科学 Q2 Computer Science
H. P. Aria, M. Ahrabi, F. Allahverdi, M. Korayem
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引用次数: 0

摘要

本研究旨在分析脑瘫患者康复缆索机器人的运动学发展。为此,通过提取机器人的运动学模型,分析了健康人在机器人中的行走模式。因此,考虑了一个七连杆模型,并获得了连杆质心的变化,然后获得了步态周期中与关节变化相关的角度的运动。接下来,研究了人与康复缆索机器人的集成,解决了直接运动学问题。此外,电缆的变化相关输出是通过人员的移动和连接的皮带获得的。该机器人是进一步提出的,因为电缆的具体变化图有助于了解改变电缆长度需要多少电机扭矩。值得注意的是,现有的康复机器人提供了静态的人平衡。然而,在这种结构中,平衡是由六自由度机器人完成的,因此当人失去平衡时,机器人可以将其返回到原始路径。还模拟了下肢(大腿和小腿)的电缆系统,以使患者康复。还比较了模拟获得的结果和下肢运动运动学方程获得的输出,在两个软件的输出中的对应点,腿的小腿后部、小腿前部、大腿后部和大腿前部的最高差异分别为2.2、1.8、1.8和1.5%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Kinematic analysis and development of cable-driven rehabilitation robot for cerebral palsy patients
This study aimed to analyze the kinematic development of a rehabilitation cable robot for patients with cerebral palsy problems. For this purpose, the walking pattern of a healthy person was analyzed in the robot by extracting his kinematic model. Therefore, a seven-link model was considered, and changes in the mass center of the links and then movements during the gait cycle were obtained with the angles related to joint changes. Next, the person’s integration with the rehabilitation cable robot was investigated with the resolution of the direct kinematic problem. In addition, the change-related outputs of the cables were obtained by the person’s movement and the attached belt. The robot was further proposed because the specific change diagram of the cables facilitates understanding how much motor torque is needed to change the length of the cable. It is noteworthy that the static person balance is provided in the existing rehabilitation robots. However, in this structure, the balance is done by the six degrees of freedom robot so that the robot can return the person to the original path when he loses his balance. Cable systems for the lower limbs (thighs and shanks) are also simulated to rehabilitate the patient. The obtained results from the simulation and the obtained output from kinematic equations for lower limb movements were also compared, and the highest deference was 2.2, 1.8, 1.8, and 1.5% for shank-back, shank-front, thigh-back, and thigh-front of the leg in the corresponding points in the outputs of both software, respectively.
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来源期刊
CiteScore
6.50
自引率
0.00%
发文量
65
审稿时长
6 months
期刊介绍: International Journal of Advanced Robotic Systems (IJARS) is a JCR ranked, peer-reviewed open access journal covering the full spectrum of robotics research. The journal is addressed to both practicing professionals and researchers in the field of robotics and its specialty areas. IJARS features fourteen topic areas each headed by a Topic Editor-in-Chief, integrating all aspects of research in robotics under the journal''s domain.
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