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Adaptive Parameter Estimation of Hyperbolic Distributed Parameter Systems:Non-symmetric Damping and Slowly Time Varying Systems

Published online by Cambridge University Press:  15 August 2002

H. T. Banks
Affiliation:
(htbanks@eos.ncsu.edu)
M. A. Demetriou
Affiliation:
(mdemetri@kimon.wpi.edu)
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Abstract

In this paper a model reference-based adaptive parameter estimator for a wide class of hyperbolic distributed parameter systems isconsidered. The proposed state and parameter estimator can handle hyperbolic systems in which the damping sesquilinear form maynot be symmetric (or even present) and a modification to the standard adaptive law is introduced to account for this lack of symmetry(or absence) in the damping form. In addition, the proposed scheme is modified for systems in which the input operator, bounded orunbounded, is also unknown. Parameters that are slowly time varying are also considered in this scheme via an extension of finitedimensional results. Using a Lyapunov type argument, state convergence is established and with the additional assumption ofpersistence of excitation, parameter convergence is shown. An approximation theory necessary for numerical implementation isestablished and numerical results are presented to demonstrate the applicability of the above parameter estimators.

Type
Research Article
Copyright
© EDP Sciences, SMAI, 1998

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