Title :
Open-loop tracking performance of a limb joint controlled by random, periodic, and abrupt electrical stimulation inputs to the antagonist muscle pair
Author :
Zhou, Bing-He ; Baratta, Richard V. ; Solomonov, M. ; Matsushita, Noboru ; D´Ambrosia, R.D.
Author_Institution :
Bioeng. Lab., Louisiana State Univ. Med. Center, New Orleans, LA, USA
fDate :
4/1/1998 12:00:00 AM
Abstract :
The ability of the cat´s ankle joint to track various input signals when controlled by electrically elicited motor unit recruitment, firing rate and antagonist muscle coactivation was examined. Pseudo-random, sinusoidal and staircase signals were used to control the soleus and tibialis anterior muscles isometrically and with a 250-g pendulum. Tracking was evaluated through cross correlation for pseudo-random and sinusoidal signals, and by rise time and steady-state error in step signals. Better tracking was obtained in isometric conditions than in load-moving conditions. Pseudo-random signals resulted in 250-ms delay between input and isometric torque output. For load-moving conditions, 340-ms and 400-ms delay in torque and angle were obtained. For sinusoids, delays decreased from 240 ms at 0.5 Hz, to 140 ms at 2 Hz in isometric conditions. Time delays for angle were between 300 and 400 ms, decreasing as frequency increased. Poor cross correlation was found for torque in load-moving conditions, because of pendulum nonlinear dynamics. Step size was not uniform in staircase trials, with steady-state errors between 9% and 39%, and rise times between 200 and 1000 ms. It is concluded that open-loop joint control results in poor tracking, presumably because it is devoid of feedback mechanisms.
Keywords :
biocontrol; bioelectric phenomena; biomechanics; muscle; 0.5 Hz; 140 to 1000 ms; 2 Hz; abrupt electrical stimulation; antagonist muscle coactivation; antagonist muscle pair; cat´s ankle joint; feedback mechanisms; firing rate; input signals tracking; isometric conditions; limb joint; load-moving conditions; motor unit recruitment; open-loop joint control; open-loop tracking performance; periodic electrical stimulation; pseudo-random signals; random electrical stimulation; sinusoidal signals; soleus; staircase signals; tibialis anterior; Delay; Electrical stimulation; Fatigue; Feedback; Muscles; Open loop systems; Orthopedic surgery; Recruitment; Steady-state; Torque; Analysis of Variance; Animals; Ankle Joint; Calibration; Cats; Electric Stimulation; Feedback; Isometric Contraction; Muscle, Skeletal; Periodicity; Peroneal Nerve; Random Allocation; Recruitment, Neurophysiological; Sciatic Nerve;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
