Yves Capdeboscq scite author profile

Abstract. This paper presents a new algorithm for conductivity imaging. Our idea is to extract more information about the conductivity distribution from data that have been enriched by coupling impedance electrical measurements to localized elastic perturbations. Using asymptotics of the elds in the presence of small volume inclusions, we relate the pointwise values of the energy density to the measured data, through a nonlinear PDE. Our algorithm is based on this PDE and takes full advantage of the enriched data. We give numerical examples that illustrate the performance and the accuracy of our approach.

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A general representation formula for boundary voltage perturbations caused by internal conductivity inhomogeneities of low volume fraction

Capdeboscq¹,

Vogelius²

2003

ESAIM: M2AN

105

208

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Imaging by Modification: Numerical Reconstruction of Local Conductivities from Corresponding Power Density Measurements

Capdeboscq¹,

Fehrenbach²,

Gournay³

et al. 2009

SIAM J. Imaging Sci.

183

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Homogenization of a spectral problem in neutronic multigroup diffusion

Allaire

Capdeboscq

2000

Computer Methods in Applied Mechanics and Engineering

127

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This paper is concerned with the homogenization of an eigenvalue problem in a periodic heterogeneous domain for the multigroup neutron di usion system. Such a model is used for studying the criticality of nuclear reactor cores. We prove that the rst eigenvector of the multigroup system in the periodicity cell controls the oscillatory behavior of the solutions, whereas the global trend is asymptotically given by a homogenized di usion eigenvalue problem. The neutron ux, corresponding to the rst eigenvector of the multigroup system, tends to the product of the rst periodic and homogenized eigenvectors. This result justi es and improves the engineering procedure used in practice for nuclear reactor core computation.

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Yves Capdeboscq

Electrical Impedance Tomography by Elastic Deformation

A general representation formula for boundary voltage perturbations caused by internal conductivity inhomogeneities of low volume fraction

Imaging by Modification: Numerical Reconstruction of Local Conductivities from Corresponding Power Density Measurements

Homogenization of a spectral problem in neutronic multigroup diffusion

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