Your search keyword '"Kress R"' showing total 3 results

1. Conformal mapping and an inverse impedance boundary value problem.

Author

Haddar, H. and Kress, R.

Subjects

*BOUNDARY value problems, *EQUATIONS, *HARMONIC functions, *DIRICHLET problem, *DIFFERENTIAL equations

Abstract

Akduman, Haddar and Kress [1, 12, 15] proposed a conformal mapping approach for solving inverse boundary value problems for the two-dimensional Laplace equation in a doubly connected domain D with interior boundary curve Γ0 and exterior boundary curve Γ1. The inverse problem consists of reconstructing the interior boundary Γ0 from the Cauchy data on Γ1 of a harmonic function satisfying a homogeneous Dirichlet or Neumann boundary condition on the unknown interior boundary curve Γ0. The reconstruction method consists of two parts: In the first step, by successive approximations a nonlocal and nonlinear ordinary differential equation is solved to determine the boundary values of a holomorphic function Ψ on the outer boundary circle C1 of an annulus B. Then in the second step via regularizing a Laurent expansion in the sense of Tikhonov an ill-posed Cauchy problem is solved to determine Ψ in the annulus and the unknown Γ0 as the image Ψ(C0) of the interior boundary circle C0 of B. The present paper extends this approach to the case of a homogeneous impedance boundary condition. The analysis and the numerical implementation of the method differ from the limiting cases of the Dirichlet and Neumann conditions since the impedance problem in the annulus B that is associated with the impedance problem in the original domain D depends on the conformal map Ψ. [ABSTRACT FROM AUTHOR]

Published

2006

2. A hybrid method for inverse boundary value problems in potential theory.

Author

Chapko, R. and Kress, R.

Subjects

*BOUNDARY value problems, *DIRICHLET problem, *POTENTIAL theory (Mathematics), *HARMONIC functions, *NEWTON-Raphson method

Abstract

We describe a new method for solving an inverse Dirichlet problem for harmonic functions that arises in the mathematical modelling of electrostatic and thermal imaging methods. This method may be interpreted as a hybrid of a decomposition method, in the spirit of a method developed by Kirsch and Kress, and a regularized Newton method for solving a nonlinear ill-posed operator equation, in terms of the solution operator that maps the unknown boundary onto the solution of the direct problem. As opposed to the Newton iterations the new method does not require a forward solver. Its feasibility is demonstrated through numerical examples. [ABSTRACT FROM AUTHOR]

Published

2005

3. Inverse Dirichlet problem and conformal mapping

Author

Kress, R.

Subjects

*PARTIAL differential equations, *DIRICHLET principle, *HARMONIC functions, *DIRICHLET problem

Abstract

In this exposition we consider an inverse Dirichlet problem for harmonic functions that arises in the mathematical modelling of electrostatic imaging methods. In the first part we will survey the main ideas of some reconstruction procedures that have been employed for the numerical solution of this nonlinear and ill-posed inverse boundary value problem. In the second part we will outline a recently developed method that is based on conformal mapping techniques. By some numerical examples we will illustrate the feasibility of this new method. [Copyright &y& Elsevier]

Published

2004