Hanbing Liu, Peng Hu, Munteanu Ionut
Published 2016-04-27Version 1
The aim of this work is to design an explicit finite dimensional boundary feedback controller for locally exponentially stabilizing the equilibrium solutions to Fisher's equation in both $L^2(0,1)$ and $H^1(0,1)$. The feedback controller is expressed in terms of the eigenfunctions corresponding to unstable eigenvalues of the linearized equation. This stabilizing procedure is applicable for any level of instability, which extends the result of \cite{02} for nonlinear parabolic equations. The effectiveness of the approach is illustrated by a numerical simulation.
Comments: 13 pages, 6 figures
Diffusion and robustness of boundary feedback stabilization of hyperbolic systems
Boundary sampled-data feedback stabilization for parabolic equations
Boundary feedback stabilization by piecewise constant time delay for the wave equation
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