Title :
Self-contained powered knee and ankle prosthesis: Initial evaluation on a transfemoral amputee
Author :
Sup, F. ; Varol, H.A. ; Mitchell, J. ; Withrow, T.J. ; Goldfarb, M.
Author_Institution :
Dept. of Mech. Eng., Vanderbilt Univ., Nashville, TN, USA
Abstract :
This paper presents an overview of the design and control of a fully self-contained prosthesis, which is intended to improve the mobility of transfemoral amputees. A finite-state based impedance control approach, previously developed by the authors, is used for the control of the prosthesis during walking and standing. The prosthesis was tested on an unilateral amputee subject for over-ground walking. Prosthesis sensor data (joint angles and torques) acquired during level ground walking experiments at a self-selected cadence demonstrates the ability of the device to provide a functional gait similar to normal gait biomechanics. Battery measurements during level ground walking experiments show that the self-contained device provides over 4, 500 strides (9.0 km of walking at a speed of 5.1 km/h) between battery charges.
Keywords :
finite state machines; gait analysis; medical control systems; prosthetics; ankle prosthesis; finite state; gait biomechanics; impedance control; powered knee prosthesis; self-contained prosthesis; standing; transfemoral amputee; transfemoral amputees; walking; Battery charge measurement; Biomechanics; Biosensors; Current measurement; Impedance; Knee; Legged locomotion; Prosthetics; Testing; Velocity measurement;
Conference_Titel :
Rehabilitation Robotics, 2009. ICORR 2009. IEEE International Conference on
Conference_Location :
Kyoto
Print_ISBN :
978-1-4244-3788-7
DOI :
10.1109/ICORR.2009.5209625
