Title :
Gait phase-based control for a knee assistive system
Author :
Bae, Joonbum ; Kong, Kyoungchul
Author_Institution :
Sch. of Mech. & Adv. Mater. Eng., UNIST, Ulsan, South Korea
Abstract :
Actuators for physical human-robot interaction (pHRI) such as rehabilitation or assistive systems should generate the desired torque precisely. However, the resistive and inertia loads inherent in the actuators (e.g., friction, damping, and inertia) set challenges in the control of actuators in a force/torque mode. The resistive factors include nonlinear effects and should be considered in the controller design to generate the desired force accurately. Moreover, the uncertainties in the plant dynamics make the precise torque control difficult. In this paper, nonlinear control algorithms are exploited for a rotary series elastic actuator to generate the desired torque precisely in the presence of nonlinear resistive factors and modeling uncertainty. The performance of the proposed controller is verified by experiments with actual walking motions.
Keywords :
actuators; control system synthesis; elasticity; gait analysis; human-robot interaction; medical robotics; nonlinear control systems; torque control; uncertain systems; actuator control; controller design; force generation; force mode; gait phase-based control; inertia loads; knee assistive system; modeling uncertainty; nonlinear control algorithms; nonlinear effects; nonlinear resistive factors; pHRI; physical human-robot interaction; plant dynamics; resistive loads; rotary series elastic actuator; torque control; torque generation; torque mode; walking motions; Actuators; DC motors; Humans; Joints; Sliding mode control; Springs; Torque; Human assistive system; rehabilitation; sliding mode control;
Conference_Titel :
Control, Automation and Systems (ICCAS), 2012 12th International Conference on
Conference_Location :
JeJu Island
Print_ISBN :
978-1-4673-2247-8
