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Design and control of a 3-DOF rehabilitation robot for forearm and wrist

Lincong Luo, Liang Peng, Zeng‐Guang Hou, Weiqun Wang

Year
2017
Citations
8

Abstract

This paper presents a 3-DOF compact rehabilitation robot, involving mechanical structure design, control system design and gravity compensation analysis. The robot can simultaneously provide assistance for pronation/supination(P/S), flexion/extension(F/E) and adduction/abduction(A/A) joints rehabilitation training. The P/S and F/E joints are designed to be driven by cable transmission to gain a high backdrivability, and an adjustment plate is adopted to decrease the distance between the rotation axis of F/E joint of the human wrist and the robot. In addition, gravity compensation is considered to offset the impact of self-gravity on the performance of the controller. A "moving window" control strategy based on impedance control is proposed and implemented on the robot. A comparison between the "moving window" control and classical impedance control indicates that the former has more potential to stimulate the voluntary efforts of the participant, and has a less limitation moving in a fixed reference trajectory. Meanwhile, the results also validate the feasibility and safety of the wrist robot system.

Keywords

WristForearmComputer scienceRobotRehabilitationPhysical medicine and rehabilitationControl (management)Artificial intelligenceMedicinePhysical therapy

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