This paper proposes the local shape function method (LSF) with CGFFT T-matrix method to reconstruct object permittivity in three dimensions. The algorithm accounts for multiple scattering by casting the inverse problem into a minimization problem, and iteratively minimizing the difference between the measured and calculated fields from the current object profile. In 3D scattering, the dyadic Green's function singularity needs a more cautious treatment, while LSF avoids the singularity problem by matching the boundary condition at the surface of each subscatterer instead of at the center, which yields a less nonlinear inverse problem compared with other techniques. At each step of the minimization process, numerous forward problems correspon...
Microwave imaging can be applied in many different areas, including industrial, scientific and medic...
In this work, we present a framework to detect the shape of unknown perfect electric conducting obje...
Abstract-We discuss two techniques for solving two-dimensional (2-D) inverse scattering problems by ...
A numerical algorithm for reconstruction of the permittivity of a three-dimensional penetrable objec...
Inverse scattering algorithms for Hz polarized waves are scarce, due to the added difficulties of po...
Local shape functions imaging uses far-field microwave scattering data to reconstruct the presence o...
A non-linear inverse scattering algorithm is presented that uses a local shape function (LSF) approx...
A numerical algorithm for the reconstruction of the density and the compressibility of a biological ...
A new nonlinear inversion algorithm known as the local shape function (LSF) method was derived to im...
Breast imaging via microwave tomography involves estimating the distribution of dielectric propertie...
Iterative methods are suitable for solving large-size problems in the electromagnetic and acoustic w...
An increasing number of practical applications of three-dimensional microwave imaging require accura...
An increasing number of practical applications of three-dimensional microwave imaging require accura...
Within biomedical microwave tomography, a spatial iterative method for the reconstruction of the com...
International audienceA nonlinear inverse scattering problem is solved to retrieve the permittivity ...
Microwave imaging can be applied in many different areas, including industrial, scientific and medic...
In this work, we present a framework to detect the shape of unknown perfect electric conducting obje...
Abstract-We discuss two techniques for solving two-dimensional (2-D) inverse scattering problems by ...
A numerical algorithm for reconstruction of the permittivity of a three-dimensional penetrable objec...
Inverse scattering algorithms for Hz polarized waves are scarce, due to the added difficulties of po...
Local shape functions imaging uses far-field microwave scattering data to reconstruct the presence o...
A non-linear inverse scattering algorithm is presented that uses a local shape function (LSF) approx...
A numerical algorithm for the reconstruction of the density and the compressibility of a biological ...
A new nonlinear inversion algorithm known as the local shape function (LSF) method was derived to im...
Breast imaging via microwave tomography involves estimating the distribution of dielectric propertie...
Iterative methods are suitable for solving large-size problems in the electromagnetic and acoustic w...
An increasing number of practical applications of three-dimensional microwave imaging require accura...
An increasing number of practical applications of three-dimensional microwave imaging require accura...
Within biomedical microwave tomography, a spatial iterative method for the reconstruction of the com...
International audienceA nonlinear inverse scattering problem is solved to retrieve the permittivity ...
Microwave imaging can be applied in many different areas, including industrial, scientific and medic...
In this work, we present a framework to detect the shape of unknown perfect electric conducting obje...
Abstract-We discuss two techniques for solving two-dimensional (2-D) inverse scattering problems by ...