A new error analysis for parabolic Dirichlet boundary control problems

Abstract

In this paper, we consider the finite element approximation to a parabolic Dirichlet boundary control problem and establish new a priori error estimates. In the temporal semi-discretization we apply the DG(0) method for the state and the variational discretization for the control, and obtain the convergence rates O(k14) and O(k34-) (>0) for the control for problems posed on polytopes with y0∈ L2(), yd∈ L2(I;L2()) and smooth domains with y0∈ H12(), yd∈ L2(I;H1()) H12(I;L2()), respectively. In the fully discretization of the optimal control problem posed on polytopal domains, we apply the DG(0)-CG(1) method for the state and the variational discretization approach for the control, and derive the convergence order O(k14 +h12), which improves the known results by removing the mesh size condition k=O(h2) between the space mesh size h and the time step k. As a byproduct, we obtain a priori error estimate O(h+k1 2) for the fully discretization of parabolic equations with inhomogeneous Dirichlet data posed on polytopes, which also improves the known error estimate by removing the above mesh size condition.