Title :
Robust closed-loop control of isometric muscle force using pulsewidth modulation
Author :
Chizeck, Howard J. ; Crago, Patrick E. ; Kofman, Leon S.
Author_Institution :
Case Western Reserve Univ., Cleveland, OH, USA
fDate :
7/1/1988 12:00:00 AM
Abstract :
The design of feedback controllers to accurately and robustly regulate the properties of electrically stimulated muscle is considered. Reliable, precise control is necessary for the development of neuroprosthetic devices to improve gradation and repeatability of force. A digital closed-loop controller has been developed which regulates muscle force by modulating the pulsewidth of a constant-amplitude electrical simulation pulse train. This controller has been evaluated in slow- and fast-twitch muscles (cat soleus and plantaris) in acute experiments. In isometric tests, it was found to regulate muscle force with low sensitivity to modeling errors and disturbances while satisfying stability, repeatability, linearity, and step/ramp response criteria over a wide range of commands.
Keywords :
biocontrol; biomechanics; closed loop systems; muscle; acute experiments; cat soleus; constant-amplitude electrical simulation pulse train; digital closed-loop controller; electrically stimulated muscle; fast-twitch muscles; isometric muscle force; linearity; modelling errors; muscle force regulation; neuroprosthetic devices; plantaris; pulsewidth modulation; repeatability; robust closed-loop control; slow-twitch muscles; stability; step/ramp response criteria; Adaptive control; Digital control; Digital modulation; Force control; Muscles; Neural prosthesis; Pulse modulation; Robust control; Space vector pulse width modulation; Testing; Animals; Biofeedback (Psychology); Cats; Electric Stimulation; Isometric Contraction; Models, Biological; Muscle Contraction; Muscles;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
