Robust numerical algorithms based on analytic approximation for the solution of inverse problems in annular domains
Abstract
We consider the Cauchy problem of recovering both Neumann and Dirichlet data on the inner part of the boundary of an annular domain, from measurements of a harmonic function on some part of the outer boundary. The ultimate goal is to compute the impedance or Robin coefficient, which is the quotient of these extended data, on the inner boundary. This impedance gives information on the location and extent of a possible corroded area in the internal wall of the domain. Using tools from complex analysis and best approximation in Hardy classes, we present constructive and robust identification schemes validated by a thorough numerical study.
Origin : Files produced by the author(s)
Loading...