Title :
Control of an upper extremity exoskeleton robot to provide active assistive therapy
Author :
Rahman, Md Hafizur ; Rahman, M.J. ; Saad, Maarouf ; Ochoa-Luna, C. ; Ferrer, S.B. ; Archambault, Philippe S.
Author_Institution :
Electr. Eng. Dept., McGill Univ., Montreal, QC, Canada
fDate :
Aug. 31 2013-Sept. 2 2013
Abstract :
To provide movement assistance and rehabilitation therapy to the human upper extremity, we have developed a wearable robot, ETS-MARSE. In this paper, we have developed and implemented a nonlinear control strategy (with sliding mode control and exponential reaching law) to maneuver the robot and to provide active arm movement therapy. To evaluate the controller´s performance and that of the ETS-MARSE in regards to providing the therapeutic exercises, experiments involving healthy human subjects were performed with the developed ETS-MARSE. Results of these experiments indicate that with the proposed control strategy, ETS-MARSE can effectively deliver active assistive rehabilitation exercises.
Keywords :
medical robotics; nonlinear control systems; patient rehabilitation; patient treatment; variable structure systems; ETS-MARSE; active arm movement therapy; active assistive rehabilitation exercises; active assistive therapy; controller performance evaluation; exponential reaching law; human upper extremity; movement assistance; nonlinear control strategy; rehabilitation therapy; sliding mode control; therapeutic exercises; upper extremity exoskeleton robot control; wearable robot; Equations; Force; Joints; Medical treatment; Robots; Torque; Vectors; Sliding mode control; rehabilitation therapy; upper extremity impairment;
Conference_Titel :
Modelling, Identification & Control (ICMIC), 2013 Proceedings of International Conference on
Conference_Location :
Cairo
Print_ISBN :
978-0-9567157-3-9
