2001
DOI: 10.1088/0266-5611/17/4/316
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Numerical solution of a Cauchy problem for the Laplace equation

Abstract: We consider a two-dimensional steady state heat conduction problem. The Laplace equation is valid in a domain with a hole. Temperature and heatflux data are specified on the outer boundary, and we wish to compute the temperature on the inner boundary. This Cauchy problem is ill-posed, i.e. the solution does not depend continuously on the boundary data, and small errors in the data can destroy the numerical solution. We consider two numerical methods for solving this problem. A standard approach is to discretiz… Show more

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Cited by 91 publications
(62 citation statements)
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“…It is important to re-emphasis that nice analytical solution of the above problem exists for smooth Cauchy data ( f , g) only and arbitrarily small noise in Cauchy data can totally destroy the solution [7], [16]. In the following subsection a nice well-posed forward problem is presented.…”
Section: Problem Formulationmentioning
confidence: 99%
“…It is important to re-emphasis that nice analytical solution of the above problem exists for smooth Cauchy data ( f , g) only and arbitrarily small noise in Cauchy data can totally destroy the solution [7], [16]. In the following subsection a nice well-posed forward problem is presented.…”
Section: Problem Formulationmentioning
confidence: 99%
“…One can introduce the cut off frequency N c and define a solution with the coefficients with k ≤ N c . The error estimate between exact solution and such a solution can be found in Berntsson and Eldén [12]. Yet, in the next section, we present a different approach based on the method of fundamental solution.…”
Section: Relation With the Tikhonov Regularization With Morozov Princmentioning
confidence: 99%
“…Nevertheless, the literature devoted to the Cauchy problem for linear homogeneous elliptic equations is very rich, see e.g. [4,5,7,9,12,13,16,21,23,29,33,35] and the references therein. Recently, a linear inhomogeneous version of Helmholtz equation (i.e.…”
Section: Introductionmentioning
confidence: 99%