H2 Stabilization of the 2-D and 3-D Heat Equation via Modal Decomposition

Abstract

Boundary controllers have been recently proposed in the literature, via modal decomposition, to achieve H1 stabilization of linear parabolic equations in two and three dimensions. In one dimension (1-D), H1 exponential stability is known to imply boundedness and asymptotic convergence of the state to zero in the sense of the max norm. However, in two (2-D) and three dimensions (3-D), this implication does not systematically hold. In this paper, focusing on the full-state feedback case, our objective is to prove that the modal-decomposition based controller in Munteanu2017IJC guarantees, not only H1 exponential stability, but also H2 exponential stability. This implies, in particular, boundedness and asymptotic convergence of the state to zero in the sense of the max norm. Our approach consists in rewriting the Laplacian of the state, required in the H2 norm, as a linear combination of the state and its time derivative. The L2 norm of the state being bounded by the H1 norm, we only analyze the L2 norm of the time derivative of the state.