偏瘫外骨骼机器人的运动学分析与步态规划

Cobot Pub Date : 2022-01-12 DOI:10.12688/cobot.17434.1
Pengbo Li, Can Wang, Bailin He, Jiaqing Liu, Xinyu Wu
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引用次数: 1

摘要

背景:随着世界人口老龄化的加剧,偏瘫患者的数量也在逐年增加。目前,在许多医疗水平较低的国家,没有足够的康复专家。由于患者的情况不同,目前的康复训练系统不能适用于所有患者。从而使偏瘫患者得不到有效的康复训练。方法:通过运动捕捉实验,根据运动数据对髋关节、膝关节和踝关节的力学设计进行合理优化。通过对偏瘫外骨骼机器人各关节的运动学分析,得到各关节机构的运动学关系,并采用Denavit-Hartenberg(D-H)方法对外骨骼机器人进行运动学分析。在机械系统自动动力学分析(ADAMS)中对机器人进行了运动学仿真,并将理论计算结果与仿真结果进行了比较,验证了运动学关系的正确性。根据外骨骼运动学模型,提出了步态规划的镜像教学方法,允许受影响的腿在外骨骼机器人的帮助下模仿健康腿的运动。结论:提出了一种由深圳先进技术研究院设计的新型偏瘫外骨骼机器人,该机器人具有重量轻、模块化、拟人化等特点。分析了机器人的运动学,提出了镜像训练步态,使患者形成自然的行走姿势。最后,可穿戴步行实验进一步证明了偏瘫外骨骼机器人结构和步态规划的可行性。
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Kinematics analysis and gait planning for a hemiplegic exoskeleton robot
Background: As the world's aging population increases, the number of hemiplegic patients is increasing year by year. At present, in many countries with low medical level, there are not enough rehabilitation specialists. Due to the different condition of patients, the current rehabilitation training system cannot be applied to all patients. so that patients with hemiplegia cannot get effective rehabilitation training. Methods: Through a motion capture experiment, the mechanical design of the hip joint, knee joint and ankle joint was rationally optimized based on the movement data. Through the kinematic analysis of each joint of the hemiplegic exoskeleton robot, the kinematic relationship of each joint mechanism was obtained, and the kinematics analysis of the exoskeleton robot was performed using the Denavit-Hartenberg (D-H) method. The kinematics simulation of the robot was carried out in automatic dynamic analysis of mechanical systems (ADAMS), and the theoretical calculation results were compared with the simulation results to verify the correctness of the kinematics relationship. According to the exoskeleton kinematics model, a mirror teaching method of gait planning was proposed, allowing the affected leg to imitate the movement of the healthy leg with the help of an exoskeleton robot. Conclusions: A new hemiplegic exoskeleton robot designed by Shenzhen Institute of Advanced Technology (SIAT-H) is proposed, which is lightweight, modular and anthropomorphic. The kinematics of the robot have been analyzed, and a mirror training gait is proposed to enable the patient to form a natural walking posture. Finally, the wearable walking experiment further proves the feasibility of the structure and gait planning of the hemiplegic exoskeleton robot.
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Cobot
Cobot collaborative robots-
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期刊介绍: Cobot is a rapid multidisciplinary open access publishing platform for research focused on the interdisciplinary field of collaborative robots. The aim of Cobot is to enhance knowledge and share the results of the latest innovative technologies for the technicians, researchers and experts engaged in collaborative robot research. The platform will welcome submissions in all areas of scientific and technical research related to collaborative robots, and all articles will benefit from open peer review. The scope of Cobot includes, but is not limited to: ● Intelligent robots ● Artificial intelligence ● Human-machine collaboration and integration ● Machine vision ● Intelligent sensing ● Smart materials ● Design, development and testing of collaborative robots ● Software for cobots ● Industrial applications of cobots ● Service applications of cobots ● Medical and health applications of cobots ● Educational applications of cobots As well as research articles and case studies, Cobot accepts a variety of article types including method articles, study protocols, software tools, systematic reviews, data notes, brief reports, and opinion articles.
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