Add to ORKGAbstract: In this paper we describe an approach to localize and (possibly) identify the shape of multiple homogeneous buried targets from measures of the scattered field at the air-earth interface, without explicitly solving the corresponding inverse scattering problem. The initial idea of Colton and Kirsch [1] is exploited to develop a new method which takes advantage of a suitable regularization scheme and of a properly defined compensation map. The proposed method remarkably improves performances with respect to previous approaches. Finally, a simple and effective extension to the case of multi-frequency data is also proposed
International audienceWe propose an approach for probing the near-subsurface based on the use of a m...
We consider the three dimensional electromagnetic inverse scattering problem of determining informat...
International audienceThis letter considers the problem of detecting and characterizing a target bur...
Imaging buried objects embedded within electrically large investigation domains can require a large ...
The problem of imaging homogenous dielectric targets buried under a rough interface is important in ...
International audienceIn this article, a fast and efficient method to detect and localize shallow bu...
Imaging buried objects embedded within electrically large investigation domains can require a large ...
International audienceProbing the near-subsurface in the presence of absorbing media is a very chall...
The problem of detecting buried scatterers from their scattered field collected under a remote arra...
International audienceThis paper deals with the detection of a buried object beneath a rough surface...
Abstract—This paper proposes a new inverse method for microwave-based subsurface sensing of lossy di...
The problem of determining and understanding the nature of buried objects by means of nondestructive...
International audienceThis paper deals with two different quantitative inversion algorithms for reco...
In microwave imaging, it is often of interest to inspect electrically large spatial regions. In thes...
In microwave imaging, it is often of interest to inspect electrically large spatial regions. In thes...
International audienceWe propose an approach for probing the near-subsurface based on the use of a m...
We consider the three dimensional electromagnetic inverse scattering problem of determining informat...
International audienceThis letter considers the problem of detecting and characterizing a target bur...
Imaging buried objects embedded within electrically large investigation domains can require a large ...
The problem of imaging homogenous dielectric targets buried under a rough interface is important in ...
International audienceIn this article, a fast and efficient method to detect and localize shallow bu...
Imaging buried objects embedded within electrically large investigation domains can require a large ...
International audienceProbing the near-subsurface in the presence of absorbing media is a very chall...
The problem of detecting buried scatterers from their scattered field collected under a remote arra...
International audienceThis paper deals with the detection of a buried object beneath a rough surface...
Abstract—This paper proposes a new inverse method for microwave-based subsurface sensing of lossy di...
The problem of determining and understanding the nature of buried objects by means of nondestructive...
International audienceThis paper deals with two different quantitative inversion algorithms for reco...
In microwave imaging, it is often of interest to inspect electrically large spatial regions. In thes...
In microwave imaging, it is often of interest to inspect electrically large spatial regions. In thes...
International audienceWe propose an approach for probing the near-subsurface based on the use of a m...
We consider the three dimensional electromagnetic inverse scattering problem of determining informat...
International audienceThis letter considers the problem of detecting and characterizing a target bur...