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Robust Control of a Cable-Driven Soft Exoskeleton Joint for Intrinsic Human-Robot Interaction

Christopher Jarrett, Andrew McDaid

发表年份
2017
引用次数
65

摘要

A novel, cable-driven soft joint is presented for use in robotic rehabilitation exoskeletons to provide intrinsic, comfortable human-robot interaction. The torque-displacement characteristics of the soft elastomeric core contained within the joint are modeled. This knowledge is used in conjunction with a dynamic system model to derive a sliding mode controller (SMC) to implement low-level torque control of the joint. The SMC controller is experimentally compared with a baseline feedback-linearised proportional-derivative controller across a range of conditions and shown to be robust to un-modeled disturbances. The torque controller is then tested with six healthy subjects while they perform a selection of activities of daily living, which has validated its range of performance. Finally, a case study with a participant with spastic cerebral palsy is presented to illustrate the potential of both the joint and controller to be used in a physiotherapy setting to assist clinical populations.

关键词

ExoskeletonTorqueController (irrigation)Powered exoskeletonControl theory (sociology)RobotEngineeringControl engineeringComputer scienceSpastic cerebral palsy

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