Your search keyword '"Solimene, Raffaele"' showing total 10 results

1. Subsurface Radar Imaging by Optimizing Sensor Locations in Spatio-Spectral Domains

Author

Bhat, Chandan, primary, Maisto, Maria Antonia, additional, Khankhoje, Uday K., additional, and Solimene, Raffaele, additional

Published

2023

2. Three-dimensional through-wall imaging under ambiguous wall parameters

Author

Solimene, Raffaele, Soldovieri, Francesco, Prisco, Giancarlo, and Pierri, Rocco

Subjects

Algorithms -- Usage, Parameter estimation -- Methods, Singular value decomposition -- Methods, Imaging systems -- Technology application, Algorithm, Technology application, Business, Earth sciences, Electronics and electrical industries

Abstract

A through-wall imaging problem for a 3-D geometry is considered. Scatterers are located beyond a wall represented by a dielectric slab whose features are unknown or known with some degree of uncertainty. A two-step imaging procedure is presented. First, the thickness and the dielectric permittivity of the wall are estimated by a simple procedure which takes into account that actual measurements concern the total scattered field (i.e., the field reflected by the wall plus the one scattered by the obscured scatterers). Then, the problem is cast as a linear inverse scattering problem and solved by means of a truncated-singular value decomposition algorithm. In particular, a 2-D sliced approach is employed to obtain the 3-D scene. Numerical examples are shown to assess the effectiveness of the reconstruction procedure. Index Terms--Linear inverse scattering problem, singular value decomposition, through-wall imaging (TWI).

Published

2009

3. Imaging small PEC spheres by a linear [delta] approach

Author

Solimene, Raffaele, Buonanno, Aniello, and Pierri, Rocco

Subjects

Algorithms -- Usage, Decomposition (Mathematics) -- Methods, Remote sensing -- Research, Electromagnetic waves -- Scattering, Electromagnetic waves -- Evaluation, Algorithm, Business, Earth sciences, Electronics and electrical industries

Abstract

The problem of localizing small inhomogeneities from the knowledge of their scattered field is dealt with. In particular, the case of small perfect electric conducting spheres is of concern, with the scattered field data collected under multistatic/multifrequency/single-view or multistatic/single-frequency/multiview far zone configurations. The multiple scattering between the spheres is neglected, and their locations are represented as the supports of the Dirac [delta] functions. This allows one to cast the problem as the inversion of a linear integral operator, with the [delta] functions being the unknowns of the problem. The inversion of this linear integral operator is achieved by means of the truncated singular value decomposition. The performance of the linear inversion algorithm against the model error (i.e., for situations where the multiple scattering is not negligible) is investigated by numerical simulations. Furthermore, the effect of noise is also analyzed by corrupting the data by an uncorrelated additive white Gaussian process. Index Terms--Electromagnetic inverse scattering problems, singular value decomposition, 3-D imaging.

Published

2008

4. Localization of the interfaces of a slab hidden behind a wall

Author

Soldovieri, Francesco, Solimene, Raffaele, Brancaccio, Adriana, and Pierri, Rocco

Subjects

Algorithms -- Usage, Ground penetrating radar -- Usage, Slabs -- Properties, Imaging systems -- Usage, Scattering (Physics) -- Observations, Algorithm, Business, Earth sciences, Electronics and electrical industries

Abstract

In this paper, a 1-D inverse-scattering problem laying within the framework of through-wall imaging is addressed. In particular, the problem of localizing the interfaces of a slab hidden behind an obstacle, another slab whose electromagnetic features and thickness are known, is considered. To this end, an approximate linear mathematical relationship between the scattered field and the unknown slab-interface positions is stated. Such an approximate relationship arises from neglecting the multiple-reflections between the two unknown slab's interfaces and between the slab and the obstacle. The unknown locations of the slab's interfaces are represented as the support of Dirac-[delta] functions, and the problem is cast as the inversion of a linear integral operator whose inversion is achieved by means of the Truncated-SingularValue-Decomposition (TSVD) inversion scheme. The effect of the parameters of the obstacle on the inversion algorithm and the performances achievable by the solution approach are assessed by exploiting synthetic data. Furthermore, a comparison with the reconstructions obtained under the Born approximation and with the time-backscattered field is achieved. Finally, results obtained by employing experimental data collected owing to a stepped-frequency ground-penetrating radar system are also presented. Index Terms--Linear inverse-scattering problem, stepped-frequency ground-penetrating radar (GPR), through-wall imaging (TWI).

Published

2007

5. Inverse Source Problem for a Host Medium Having Pointlike Inhomogeneities

Author

Cuccaro, Antonio, primary and Solimene, Raffaele, additional

Published

2018

6. Radar Imaging Through a Building Corner

Author

Gennarelli, Gianluca, primary, Riccio, Giovanni, additional, Solimene, Raffaele, additional, and Soldovieri, Francesco, additional

Published

2014

7. TWI for an Unknown Symmetric Lossless Wall

Author

Solimene, Raffaele, primary, Di Napoli, Rosario, additional, Soldovieri, Francesco, additional, and Pierri, Rocco, additional

Published

2011

8. Imaging Small PEC Spheres by a Linear $\delta$ Approach

Author

Solimene, Raffaele, primary, Buonanno, Aniello, additional, and Pierri, Rocco, additional

Published

2008

9. Radar Imaging Through a Building Corner

Author

Francesco Soldovieri, Raffaele Solimene, Gianluca Gennarelli, Giovanni Riccio, G., Gennarelli, G., Riccio, F., Soldovieri, and Solimene, Raffaele

Subjects

Mathematical optimization, Geometrical optics, Uniform theory of diffraction, Iterative reconstruction, Inverse problem, Synthetic data, radar imaging, through-wall, Radar imaging, Inverse scattering problem, Linear inverse scattering, General Earth and Planetary Sciences, Electrical and Electronic Engineering, Through-wall, Algorithm, Multipath propagation, Mathematics

Abstract

Through-wall imaging (TWI) requires dealing with targets embedded in a complex obscuring environment such as the walls of a building. This obscuring layout is often composed by many simple elements (possibly interacting) such as slabs, corners, and T-like structures. Most of the existing literature on TWI has focused on slab-like walls, which is reasonable when the targets are relatively far from corners. This paper instead concerns the TWI in the more challenging situation where the targets are in close proximity (inside and/or outside) of a building corner. The aim is to gain insight into how propagation through the corner impacts on the imaging problem. To keep the study simple, a preliminary analysis is presented for a 2-D geometry under the linearized Born approximation. First, the Green's function, as well as the kernel of the relevant scattering operator, is evaluated by using a high-frequency analytical approach based on the geometrical optics and the uniform theory of diffraction. This allows one to take into account the multipath propagation phenomena and provide thus an expression of the scattering operator more accurate than that viable under the assumption of a simple slab wall. Then, the imaging is achieved by solving the relevant linear inverse scattering problem with a regularizing truncated-singular-value-decomposition algorithm. The filtering introduced by the inversion procedure, which is dependent on the considered background scenario, is highlighted and linked to the achievable performance while imaging targets both internal and external with respect to the corner. Finally, reconstruction results obtained from synthetic data are reported to assess the approach.

Published

2014

10. Localization of the Interfaces of a Slab Hidden Behind a Wall

Author

Raffaele Solimene, Rocco Pierri, Francesco Soldovieri, Adriana Brancaccio, Soldovieri, F, Solimene, Raffaele, Brancaccio, Adriana, and Pierri, Rocco

Subjects

Linear inverse-scattering problem, Mathematical analysis, Dirac delta function, Inversion (meteorology), Geometry, Inverse problem, Synthetic data, symbols.namesake, through-wall imaging (TWI), Obstacle, Radar imaging, symbols, Slab, General Earth and Planetary Sciences, stepped frequency ground-penetrating radar (GPR), Electrical and Electronic Engineering, Born approximation, Mathematics

Abstract

In this paper, a 1-D inverse-scattering problem laying within the framework of through-wall imaging is addressed. In particular, the problem of localizing the interfaces of a slab hidden behind an obstacle, another slab whose electromagnetic features and thickness are known, is considered. To this end, an approximate linear mathematical relationship between the scattered field and the unknown slab-interface positions is stated. Such an approximate relationship arises from neglecting the multiple-reflections between the two unknown slab's interfaces and between the slab and the obstacle. The unknown locations of the slab's interfaces are represented as the support of Dirac-delta functions, and the problem is cast as the inversion of a linear integral operator whose inversion is achieved by means of the Truncated-Singular-Value-Decomposition (TSVD) inversion scheme. The effect of the parameters of the obstacle on the inversion algorithm and the performances achievable by the solution approach are assessed by exploiting synthetic data. Furthermore, a comparison with the reconstructions obtained under the Born approximation and with the time-backscattered field is achieved. Finally, results obtained by employing experimental data collected owing to a stepped-frequency ground-penetrating radar system are also presented.

Published

2007