Add to ORKGAbstract. We consider the inverse electromagnetic scattering problem for perfectly conducting screens. We solve this problem by modifying the linear sampling method formulated in [3] for the case of scattering obstacles with nonempty interior. Numerical examples are given for screens in R3
International audienceThis paper shows that the radiated fields from perforated plane shields excite...
AbstractWe consider the inverse scattering problem of determining both the shape and some of the phy...
The linear sampling method is an algorithm for solving the inverse scattering problem for acoustic ...
AbstractWe consider the inverse scattering problem of determining the shape of mixed perfectly condu...
We survey the linear sampling method for solving the inverse scattering problem for time-harmonic el...
We use the linear sampling method to determine the shape and surface conductivity of a partially coa...
AbstractWe use the linear sampling method to determine the shape and surface conductivity of a parti...
International audienceWe present in this study some three-dimensional numerical results that validat...
Abstract. We use the linear sampling method to determine the shape and surface conductivity of a par...
Abstract. We use the linear sampling method to determine the shape and surface conductivity of a par...
A generalization of Isakov's theorem ([13]) to admissible shapes that include screens with a Ro...
We consider the direct and inverse scattering problems for partially coated obstacles. To this end, ...
We describe a very fast and automatic formulation of the linear sampling method for three-dimensiona...
The linear sampling method is an algorithm for solving the inverse scattering problem for acoustic a...
17th Biennial IEEE Conference on Electromagnetic Field Computation, IEEE CEFC 2016, Miami, US, 13-16...
International audienceThis paper shows that the radiated fields from perforated plane shields excite...
AbstractWe consider the inverse scattering problem of determining both the shape and some of the phy...
The linear sampling method is an algorithm for solving the inverse scattering problem for acoustic ...
AbstractWe consider the inverse scattering problem of determining the shape of mixed perfectly condu...
We survey the linear sampling method for solving the inverse scattering problem for time-harmonic el...
We use the linear sampling method to determine the shape and surface conductivity of a partially coa...
AbstractWe use the linear sampling method to determine the shape and surface conductivity of a parti...
International audienceWe present in this study some three-dimensional numerical results that validat...
Abstract. We use the linear sampling method to determine the shape and surface conductivity of a par...
Abstract. We use the linear sampling method to determine the shape and surface conductivity of a par...
A generalization of Isakov's theorem ([13]) to admissible shapes that include screens with a Ro...
We consider the direct and inverse scattering problems for partially coated obstacles. To this end, ...
We describe a very fast and automatic formulation of the linear sampling method for three-dimensiona...
The linear sampling method is an algorithm for solving the inverse scattering problem for acoustic a...
17th Biennial IEEE Conference on Electromagnetic Field Computation, IEEE CEFC 2016, Miami, US, 13-16...
International audienceThis paper shows that the radiated fields from perforated plane shields excite...
AbstractWe consider the inverse scattering problem of determining both the shape and some of the phy...
The linear sampling method is an algorithm for solving the inverse scattering problem for acoustic ...