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Differentially-Clutched Series Elastic Actuator for Robot-Aided Musculoskeletal Rehabilitation

Brayden DeBoon, Scott Nokleby, Nicholas J. La Delfa, Carlos Rossa

Year
2019
Citations
22

Abstract

Series elastic actuators have proven to be an elegant response to the issue of safety around human-robot interaction. The compliant nature of series elastic actuators provides the potential to be applied in robot-aided rehabilitation for patients with upper and lower limb musculoskeletal injuries. This paper proposes a new series elastic actuator to be used in robot-aided musculoskeletal rehabilitation. The actuator is composed of a DC motor, a torsion spring, and a magnetic particle brake coupled to one common output shaft through a differential gear. The proposed topology focuses on three types of actuation modes most commonly used in rehabilitation, i.e., free motion, elastic, and assistive/resistive motion. A dynamic model of the actuator is presented and validated experimentally and the ability of the actuator to follow a reference torque is shown in different experimental scenarios.

Keywords

ActuatorTorqueRobotBrakeTorsion springRotary actuatorRehabilitation roboticsComputer scienceControl theory (sociology)Engineering

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