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Bioinspired Musculoskeletal Model-based Soft Wrist Exoskeleton for Stroke Rehabilitation

Ning Li, Tié Yang, Yang Yang, Peng Yu, Xiujuan Xue, Xingang Zhao, Guoli Song, Imad H. Elhajj, Wenxue Wang, Ning Xi, Lianqing Liu

2020Journal of Bionic Engineering45 citationsDOIOpen Access PDF

Abstract

Abstract Exoskeleton robots have demonstrated the potential to rehabilitate stroke dyskinesia. Unfortunately, poor human-machine physiological coupling causes unexpected damage to human of muscles and joints. Moreover, inferior humanoid kinematics control would restrict human natural kinematics. Failing to deal with these problems results in bottlenecks and hinders its application. In this paper, the simplified muscle model and muscle-liked kinematics model were proposed, based on which a soft wrist exoskeleton was established to realize natural human interaction. Firstly, we simplified the redundant muscular system related to the wrist joint from ten muscles to four, so as to realize the human-robot physiological coupling. Then, according to the above human-like musculoskeletal model, the humanoid distributed kinematics control was established to achieve the two DOFs coupling kinematics of the wrist. The results show that the wearer of an exoskeleton could reduce muscle activation and joint force by 43.3% and 35.6%, respectively. Additionally, the humanoid motion trajectories similarity of the robot reached 91.5%. Stroke patients could recover 90.3% of natural motion ability to satisfy for most daily activities. This work provides a fundamental understanding on human-machine physiological coupling and humanoid kinematics control of the exoskeleton robots for reducing the post-stroke complications.

Topics & Concepts

ExoskeletonKinematicsPhysical medicine and rehabilitationWristHumanoid robotRobotComputer scienceCoupling (piping)Robot kinematicsStroke (engine)SimulationEngineeringArtificial intelligenceMedicineMobile robotSurgeryPhysicsMechanical engineeringClassical mechanicsProsthetics and Rehabilitation RoboticsStroke Rehabilitation and RecoveryMuscle activation and electromyography studies
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