Sau, Ramesh Ch. scite author profile

In this paper we present a finite element analysis for a Dirichlet boundary control problem governed by the Stokes equation. The Dirichlet control is considered in a convex closed subset of the energy space H 1 (Ω). Most of the previous works on the Stokes Dirichlet boundary control problem deals with either tangential control or the case where the flux of the control is zero. This choice of the control is very particular and their choice of the formulation leads to the control with limited regularity. To overcome this difficulty, we introduce the Stokes problem with outflow condition and the control acts on the Dirichlet boundary only hence our control is more general and it has both the tangential and normal components. We prove well-posedness and discuss on the regularity of the control problem. The first-order optimality condition for the control leads to a Signorini problem. We develop a two-level finite element discretization by using P1 elements(on the fine mesh) for the velocity and the control variable and P0 elements (on the coarse mesh) for the pressure variable. The standard energy error analysis gives 1 2 + δ 2 order of convergence when the control is in H 3 2 +δ (Ω) space. Here we have improved it to 1 2 + δ, which is optimal. Also, when the control lies in less regular space we derived optimal order of convergence up to the regularity. The theoretical results are corroborated by a variety of numerical tests.

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Sau, Ramesh Ch.

Finite element analysis of the Dirichlet boundary control problem governed by linear parabolic equation

A two level finite element method for Stokes constrained Dirichlet boundary control problem

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