Litcius/Paper detail

A cable-driven elbow exoskeleton with variable stiffness actuator for upper limb rehabilitation

Lei Yang, Fuhai Zhang, Yili Fu

2024Robotica13 citationsDOI

Abstract

Abstract Elbow, with complex physiological structure, plays an important role in upper limb motion which can be assisted with exoskeleton in rehabilitation. However, the stiffness of elbow changes while training which decline the comfort and effect of rehabilitation. Moreover, the rotation axis of elbow is changing which will cause secondary injuries. In this paper, we design an elbow exoskeleton with a variable stiffness actuator and a deviation compensation unit to assist elbow rehabilitation. Firstly, we design a variable stiffness actuator by symmetric actuation principle to adapt the change of elbow stiffness. The parameters of the variable stiffness actuator are optimized by motion simulation. Next, we design a deviation compensation unit to follow the rotation axis deviation outside the horizontal plane. The compensation area is simulated to cover the deviation. Finally, simulation and experiments are carried out to show the performance of our elbow exoskeleton. The workspace can meet the need of daily elbow motion while the variable stiffness actuator can adjust the exoskeleton stiffness as expectation.

Topics & Concepts

ExoskeletonElbowActuatorStiffnessWorkspaceControl theory (sociology)EngineeringPhysical medicine and rehabilitationComputer scienceSimulationStructural engineeringRobotMedicineArtificial intelligenceAnatomyControl (management)Stroke Rehabilitation and RecoveryProsthetics and Rehabilitation RoboticsMuscle activation and electromyography studies