Finite-Dimensional Control of Parabolic PDE Systems Using Approximate Inertial Manifolds
نویسندگان
چکیده
This paper introduces a methodology for the synthesis of nonlinear finite-dimensional output feedback controllers for systems of quasi-linear parabolic partial Ž . differential equations PDEs , for which the eigenspectrum of the spatial differential operator can be partitioned into a finite-dimensional slow one and an infinitedimensional stable fast complement. Combination of Galerkin’s method with a novel procedure for the construction of approximate inertial manifolds for the Ž . PDE system is employed for the derivation of ordinary differential equation ODE Ž . systems whose dimension is equal to the number of slow modes that yield solutions which are close, up to a desired accuracy, to the ones of the PDE system, for almost all times. These ODE systems are used as the basis for the synthesis of nonlinear output feedback controllers that guarantee stability and enforce the output of the closed-loop system to follow up to a desired accuracy, a prespecified response for almost all times. Q 1997 Academic Press
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