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Structure analysis of direct sampling method in 3D electromagnetic inverse problem: near- and far-field configuration

Abstract : In this paper, the structure analysis of the Direct Sampling Method (DSM) in the {3D} electromagnetic inverse scattering problem in both near-field and far-field configurations is carried out. Even though the DSM is known to be a robust, fast, and efficient non-iterative type algorithm to estimate support and shape of unknown inhomogeneities from the knowledge of scattered data in the 2D scalar electromagnetic case, the choice of a proper test polarization dipole since the data are vectorial in the 3D vector case is to be dealt with, since indeed key to the success of {3D} DSM. Here we carefully analyze the indicator function of DSM using the asymptotic formula of the scattered field under a small volume hypothesis of well-separated inhomogeneities. Thanks to it, an analytic formula of the {3D} DSM indicator function is established. The already proposed heuristic method to choose the polarization test dipole is theoretically justified, and new methods developed for better efficiency. Numerical simulations from synthetic and experimental data validate the theoretical results.
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https://hal-centralesupelec.archives-ouvertes.fr/hal-03227222
Contributor : Marc Lambert <>
Submitted on : Monday, September 6, 2021 - 1:55:58 PM
Last modification on : Tuesday, September 7, 2021 - 3:26:28 AM

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Sangwoo Kang, Marc Lambert. Structure analysis of direct sampling method in 3D electromagnetic inverse problem: near- and far-field configuration. Inverse Problems, IOP Publishing, 2021, 37 (7), pp.075002. ⟨10.1088/1361-6420/abfe4e⟩. ⟨hal-03227222⟩

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