The imaging of buried objects is a challenging topic in electromagnetic research. In this letter, a method previously proposed for imaging of scatterers in free-space is extended to the case of objects buried in a lossy half-space. The proposed approach is based on the solution of the underlying inverse-scattering problem within the second-order Born approximation by means of a two-step inexact-Newton algorithm. The capabilities and limitations of the method are evaluated by means of some numerical simulations. Furthermore, comparisons with the free-space approach are also reported
In this contribution a new two-step algorithm for the imaging of scatterers embedded in an inhomogen...
A new approach for the inversion of synthetic and measured scattered data is proposed in this paper....
Low frequency imaging of 2D buried targets by high-order inversion formulas was discussed. The use o...
The inspection of 2-D scatterers buried in a lossy half-space from field measurements is formulated ...
In this paper the reconstruction of a shallow buried object is addressed by an electromagnetic inver...
An approach to reconstruct buried objects is proposed. It is based on the integral equations of the ...
A new approach to noninvasive inspection of dielectric targets at microwave frequencies is proposed....
An approach to solve the inverse scattering problem for imaging applications is presented. The propo...
A recently proposed inverse scattering method is assessed against some of the real input data measur...
This paper deals with the inverse scattering problem for electromagnetic imaging. In particular, a r...
An electromagnetic inverse scattering procedure for the reconstruction of shallow buried objects in ...
A new approach for the inversion of measured scattered data is proposed in this paper. The approach ...
An electromagnetic inverse scattering approach for imaging of shallow subsurface objects is reported...
In this paper an Inexact Newton method is applied to solve the electromagnetic inverse scattering pr...
The study, development, and analysis of innovative inversion techniques for the detection and imagin...
In this contribution a new two-step algorithm for the imaging of scatterers embedded in an inhomogen...
A new approach for the inversion of synthetic and measured scattered data is proposed in this paper....
Low frequency imaging of 2D buried targets by high-order inversion formulas was discussed. The use o...
The inspection of 2-D scatterers buried in a lossy half-space from field measurements is formulated ...
In this paper the reconstruction of a shallow buried object is addressed by an electromagnetic inver...
An approach to reconstruct buried objects is proposed. It is based on the integral equations of the ...
A new approach to noninvasive inspection of dielectric targets at microwave frequencies is proposed....
An approach to solve the inverse scattering problem for imaging applications is presented. The propo...
A recently proposed inverse scattering method is assessed against some of the real input data measur...
This paper deals with the inverse scattering problem for electromagnetic imaging. In particular, a r...
An electromagnetic inverse scattering procedure for the reconstruction of shallow buried objects in ...
A new approach for the inversion of measured scattered data is proposed in this paper. The approach ...
An electromagnetic inverse scattering approach for imaging of shallow subsurface objects is reported...
In this paper an Inexact Newton method is applied to solve the electromagnetic inverse scattering pr...
The study, development, and analysis of innovative inversion techniques for the detection and imagin...
In this contribution a new two-step algorithm for the imaging of scatterers embedded in an inhomogen...
A new approach for the inversion of synthetic and measured scattered data is proposed in this paper....
Low frequency imaging of 2D buried targets by high-order inversion formulas was discussed. The use o...