Finite determining parameters feedback control for distributed nonlinear dissipative systems: a computational study

Evelyn Lunasin; Edriss S. Titi

doi:10.3934/eect.2017027

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Finite determining parameters feedback control for distributed nonlinear dissipative systems: a computational study

Evelyn Lunasin and Edriss S. Titi

Evolution Equations and Control Theory, Vol.6(4), pp.535-557

Dec/2017

DOI: https://doi.org/10.3934/eect.2017027

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Abstract

We investigate the effectiveness of a simple finite-dimensional feedback control scheme for globally stabilizing solutions of in finite-dimensional dissipative evolution equations introduced by Azouani and Titiin [7]. This feedback control algorithm overcomes some of the major difficulties in control of multi-scale processes: It does not require the presence of separation of scales nor does it assume the existence of a finite-dimensional globally invariant inertial manifold. In this work we present a theoretical framework for a control algorithm which allows us to give a systematic stability analysis, and present the parameter regime where stabilization or control objective is attained. In addition, the number of observables and controllers that were derived analytically and implemented in our numerical studies is consistent with the finite number of determining modes that are relevant to the underlying physical system. We verify the results computationally in the context of the Chafee-Infante reaction-diffusion equation, the Kuramoto-Sivashinsky equation, and other applied control problems, and observe that the control strategy is robust and independent of the model equation describing the dissipative system.

Details

Title: Finite determining parameters feedback control for distributed nonlinear dissipative systems; a computational study
Creators: Evelyn Lunasin (Corresponding Author) - United States Naval Academy
Edriss S. Titi - 972WIS_INST___83
Resource Type: Journal article
Publication Details: Evolution Equations and Control Theory, Vol.6(4), pp.535-557; Dec/2017
Number of pages: 23
Language: English
DOI: https://doi.org/10.3934/eect.2017027
Grant note: NA
Record Identifier: 993262612903596

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