Title :
Robot aided passive rehabilitation using nonlinear control techniques
Author :
Rahman, Md Hafizur ; Archambault, Philippe S. ; Saad, Maarouf ; Luna, C.O. ; Ferrer, S.B.
Author_Institution :
Sch. of Phys. & Occupational Therapy, McGill Univ., Montréal, QC, Canada
Abstract :
This paper presents a robot aided passive arm movement therapeutic scheme. A seven DoFs robot, ETS-MARSE (motion assistive exoskeleton robot for superior extremity) was used for this purpose. It is an exoskeleton type wearable robot, which was designed corresponds to human upper-limb biomechanics, to provide movement assistance and rehabilitation to the individuals with upper limb dysfunction due to conditions such as stroke or spinal cord injuries. Considering the dynamic modeling of the exoskeleton which is nonlinear in nature, we have employed nonlinear control techniques (sliding mode and computed torque) to maneuver the exoskeleton. Experiments were carried out with healthy male human subjects where trajectories tracking in the form of passive rehabilitation exercises were performed.
Keywords :
medical robotics; neurophysiology; nonlinear control systems; torque control; variable structure systems; DoF robot; ETS-MARSE; dynamic modeling; exoskeleton type wearable robot; human upper-limb biomechanics; limb dysfunction; motion assistive exoskeleton robot; movement assistance; nonlinear control techniques; passive rehabilitation exercises; robot aided passive arm movement therapeutic scheme; robot aided passive rehabilitation; spinal cord injuries; superior extremity; Elbow; Exoskeletons; Joints; Medical treatment; Robots; Tracking; Trajectory; ETS-MARSE; computed torque control; passive rehabilitation; sliding mode control; trajectory tracking;
Conference_Titel :
Control Conference (ASCC), 2013 9th Asian
Conference_Location :
Istanbul
Print_ISBN :
978-1-4673-5767-8
DOI :
10.1109/ASCC.2013.6606297
