Title :
Robust control of a nonlinear time-delay system [heating of living tissue]
Author :
Tharp, Hal S. ; Zhang, William W.
Author_Institution :
Arizona Univ., Tucson, AZ, USA
Abstract :
The authors investigate the use of control theory techniques as applied to the heating of living tissue. Experiments dealing with the heating of living tissue have resulted in four completely different temperature response characteristics as a result of the application of four different constant power levels. The four response characteristics are overdamped, critically damped, underdamped, and undamped oscillations. A nonlinear, time-delay dynamic equation is presented and shown to exhibit the same type of temperature response characteristics as those in the experiments. A control strategy is then applied to the dynamic equation to inhibit the oscillatory behavior. It turns out that a proportional plus integral controller that is restricted to be nonnegative and bounded from above with antireset windup is sufficient to eliminate the oscillatory responses
Keywords :
biocontrol; biothermics; closed loop systems; control system synthesis; delays; feedback; nonlinear systems; optimal control; temperature control; two-term control; antireset windup; bioheat transfer equation; blood perfusion; closed loop system; constant power levels; control strategy; critically damped; feedback controller; heating; hyperthermia; living tissue; nonlinear time-delay system; oscillatory responses; overdamped; proportional plus integral controller; robust control; temperature response characteristics; time-delay dynamic equation; undamped oscillations; underdamped; Aerodynamics; Blood; Control theory; Heating; Hyperthermia; Integral equations; Nonlinear equations; Pi control; Proportional control; Robust control; Steady-state; Temperature; Windup;
Conference_Titel :
Decision and Control, 1992., Proceedings of the 31st IEEE Conference on
Conference_Location :
Tucson, AZ
Print_ISBN :
0-7803-0872-7
DOI :
10.1109/CDC.1992.371483
