A cyclic switching strategy for parameter-adaptive control

Abstract

This paper introduces a new strategy, called "cyclic switching," to deal with the well-known certainty equivalence control synthesis problem which arises in the design of identifier-based adaptive controllers because of the existence of points in parameter space where the design model /spl Sigma//sub D/, upon which certainty equivalence synthesis is based, loses stabilizability. Unlike most previously suggested methods for handling this problem, the technique proposed here can be employed with or without process excitation. For the technique to work it is not necessary for there to be a mechanism for moving tuned parameters away from values at which /spl Sigma//sub D/ loses stabilizability, and no such mechanism is used.