Title :
Pole Shifting with Dynamic Compensator
Author :
Mensah, S. ; McMorran, P.D. ; Polis, Michael ; Paskievici, W.
Author_Institution :
Atomic Energy of Canada Limited, Chalk River, Ontario, K0J 1J0
Abstract :
It is well known that a system with n states, m independent inputs and p independent outputs can generally have min(n, m+p-l) of its poles almost arbitrarily assigned by a static output feedback. When n≫m+p-l, the remaining poles may move to unstable locations as a result of the applied feedback. This paper presents a method that uses simple prescribed dynamics in the feedback to increase considerably the number of assigned poles. The method leads easily to an effective numerical algorithm that has been implemented in the MVPACK design package. The application of the method to the design of a stabilizing compensator for an evaporator is illustrated.
Keywords :
Algorithm design and analysis; Control theory; Design methodology; Equations; Input variables; Interconnected systems; Output feedback; Packaging; Rivers; State feedback;
Conference_Titel :
American Control Conference, 1982
Conference_Location :
Arlington, VA, USA
