Litcius/Paper detail

Torque Control of a Series Elastic Tendon-Sheath Actuation Mechanism

Yeongtae Jung, Joonbum Bae

2020IEEE/ASME Transactions on Mechatronics28 citationsDOI

Abstract

Tendon-sheath actuation mechanisms can provide compact and lightweight tendon routing. However, torque control of a tendon-sheath actuation system is challenging because of variable friction with respect to the sheath configuration. Model-based feedforward friction compensation algorithms have been developed to accurately deliver desired torque, but it is difficult to apply such algorithms to multi-degrees of freedom (DOFs) systems because of changes in sheath configurations that in turn alter the base tension and friction parameters. In this article, we develop a series elastic tendon-sheath actuation mechanism that allows feedforward torque control in multi-DOFs systems. The mechanism features series elastic elements on the motor side to reduce base tension changes and enable accurate input torque control. Friction is compensated by a feedforward controller with a modeled friction parameter to transmit desired torque to the distal joint under varying sheath configurations. The performance of the proposed series elastic tendon-sheath actuation mechanism is demonstrated in experiments using a control interface for a tele-operation system.

Topics & Concepts

Feed forwardTorqueControl theory (sociology)Mechanism (biology)Damping torqueTension (geology)TendonFriction torqueTendon sheathEngineeringComputer scienceControl engineeringMaterials scienceDirect torque controlPhysicsControl (management)Compression (physics)Composite materialVoltageArtificial intelligenceMedicineAnatomyQuantum mechanicsInduction motorThermodynamicsElectrical engineeringProsthetics and Rehabilitation RoboticsSoft Robotics and ApplicationsMuscle activation and electromyography studies