Title :
MIMO design models and internal regulators for cyclicly switched parameter-adaptive control systems
Author :
Morse, A.S. ; Pait, F.M.
Author_Institution :
Dept. of Electr. Eng., Yale Univ., New Haven, CT, USA
fDate :
9/1/1994 12:00:00 AM
Abstract :
In Pait and Morse (1994) the concept of “cyclic switching” was proposed as a means of dealing with the well-known stabilizability problem, which arises in adaptive controller synthesis because of the existence of points in parameter space where the design model upon which certainty equivalence control is based loses stabilizability. While the procedure outlined in the above paper is specific enough to enable one to construct cyclicly switched adaptive controllers for SISO process models, for the MIMO case two key issues are left unresolved. The objective of this paper is to address both of these issues, thereby extending excitation free, identifier-based adaptive control methods to minimum and nonminimum phase MIMO linear systems
Keywords :
adaptive control; control system synthesis; identification; multivariable control systems; stability; MIMO design models; SISO process models; certainty equivalence control; cyclicly switched parameter-adaptive control systems; excitation free identifier-based adaptive control methods; internal regulators; minimum phase systems; nonminimum phase MIMO linear systems; parameter space; stabilizability; Adaptive control; Control system synthesis; Control systems; Equations; Linear systems; MIMO; Matrices; Process control; Programmable control; Regulators;
Journal_Title :
Automatic Control, IEEE Transactions on
