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Control of a Rehabilitation Robotic Device Driven by Antagonistic Soft Actuators

Haozhen Chi, Hairong Su, Wenyu Liang, Qinyuan Ren

2021Actuators17 citationsDOIOpen Access PDF

Abstract

Stroke is becoming a widely concerned social problem, and robot-assisted devices have made considerable contributions in the training and treatment of rehabilitation. Due to the compliance and continuous deformation capacity, rehabilitation devices driven by soft actuators are attached to widespread attention. Considering the large output force of pneumatic artificial muscle (PAM) and the biological musculoskeletal structure, an antagonistic PAM-driven rehabilitation robotic device is developed. To fulfill the need for control of the proposed device, a knowledge-guided data-driven modeling approach is used and an adaptive feedforward–feedback control approach is presented to ensure the motion accuracy under large deformation motion with high frequency. Finally, several simulations and experiments are carried out to evaluate the performance of the developed system, and the results show that the developed system with the proposed controller can achieve expected control performance under various operations.

Topics & Concepts

Feed forwardActuatorControl engineeringController (irrigation)RehabilitationRobotControl (management)Computer scienceControl theory (sociology)Soft roboticsControl systemArtificial musclePneumatic actuatorEngineeringSimulationArtificial intelligenceMedicineAgronomyBiologyPhysical therapyElectrical engineeringStroke Rehabilitation and RecoveryProsthetics and Rehabilitation RoboticsSoft Robotics and Applications
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