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hal-00140211, version 1

## On second order shape optimization methods for electrical impedance tomography

Lekbir Afraites () 1, Marc Dambrine () 1, Djalil Kateb () 1

(2007)

Résumé : This paper is devoted to the analysis of a second order method for recovering the \emph{a priori} unknown shape of an inclusion $\omega$ inside a body $\Omega$ from boundary measurement. This inverse problem - known as electrical impedance tomography - has many important practical applications and hence has focussed much attention during the last years. However, to our best knowledge, no work has yet considered a second order approach for this problem. This paper aims to fill that void: we investigate the existence of second order derivative of the state $u$ with respect to perturbations of the shape of the interface $\partial\omega$, then we choose a cost function in order to recover the geometry of $\partial \omega$ and derive the expression of the derivatives needed to implement the corresponding Newton method. We then investigate the stability of the process and explain why this inverse problem is severely ill-posed by proving the compactness of the Hessian at the global minimizer.

• 1 :  Laboratoire de Mathématiques Appliquées de Compiègne - EA2222 (LMAC)
• Université de Technologie de Compiègne
• Domaine : Mathématiques/Optimisation et contrôle
• Mots-clés : inverse problems – identification of inhomogenities – shape calculus – order two methods

• hal-00140211, version 1
• oai:hal.archives-ouvertes.fr:hal-00140211
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• Soumis le : Jeudi 5 Avril 2007, 12:58:38
• Dernière modification le : Jeudi 5 Avril 2007, 13:46:27