PSF Analysis of the Inverse Source and Scattering Problems for Strip Geometries

PSF Analysis of the Inverse Source and Scattering Problems for Strip Geometries

This paper is concerned with estimating the achievable resolution in the reconstruction of strip sources from the knowledge of its radiated field and strip objects from the knowledge of its scattered field. In particular, the study focuses on the evaluation of the point spread function (PSF), provid...

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Main Authors: Ehsan Akbari Sekehravani, Giovanni Leone, Rocco Pierri
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Electronics
Subjects:
inverse source problem
inverse scattering problem
point spread function
resolution
Online Access:https://www.mdpi.com/2079-9292/10/6/754
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spelling doaj-a1f873d43a3a468a905823a58bd245f52021-03-23T00:06:52ZengMDPI AGElectronics2079-92922021-03-011075475410.3390/electronics10060754PSF Analysis of the Inverse Source and Scattering Problems for Strip GeometriesEhsan Akbari Sekehravani0Giovanni Leone1Rocco Pierri2Department of Engineering, University of Campania Luigi Vanvitelli, via Roma 29, I-81031 Aversa, ItalyDepartment of Engineering, University of Campania Luigi Vanvitelli, via Roma 29, I-81031 Aversa, ItalyDepartment of Engineering, University of Campania Luigi Vanvitelli, via Roma 29, I-81031 Aversa, ItalyThis paper is concerned with estimating the achievable resolution in the reconstruction of strip sources from the knowledge of its radiated field and strip objects from the knowledge of its scattered field. In particular, the study focuses on the evaluation of the point spread function (PSF), providing the reconstruction of a point-like unknown. Since this can be performed only numerically for most geometries, an approximate closed-form evaluation is introduced and compared with the exact one. Numerical results confirm the approximation accuracy, at least in the main lobe region of the PSF, which is the most important, as far as the discussion about resolution is concerned. The main results of the analysis concern the space invariance of the PSF of the considered geometries, which means that resolution is the same over the whole investigation domain, and the appreciation of its values for the inverse source and scattering problems.https://www.mdpi.com/2079-9292/10/6/754inverse source probleminverse scattering problempoint spread functionresolution
collection DOAJ
language English
format Article
sources DOAJ
author Ehsan Akbari Sekehravani
Giovanni Leone
Rocco Pierri
spellingShingle Ehsan Akbari Sekehravani
Giovanni Leone
Rocco Pierri
PSF Analysis of the Inverse Source and Scattering Problems for Strip Geometries
Electronics
inverse source problem
inverse scattering problem
point spread function
resolution
author_facet Ehsan Akbari Sekehravani
Giovanni Leone
Rocco Pierri
author_sort Ehsan Akbari Sekehravani
title PSF Analysis of the Inverse Source and Scattering Problems for Strip Geometries
title_short PSF Analysis of the Inverse Source and Scattering Problems for Strip Geometries
title_full PSF Analysis of the Inverse Source and Scattering Problems for Strip Geometries
title_fullStr PSF Analysis of the Inverse Source and Scattering Problems for Strip Geometries
title_full_unstemmed PSF Analysis of the Inverse Source and Scattering Problems for Strip Geometries
title_sort psf analysis of the inverse source and scattering problems for strip geometries
publisher MDPI AG
series Electronics
issn 2079-9292
publishDate 2021-03-01
description This paper is concerned with estimating the achievable resolution in the reconstruction of strip sources from the knowledge of its radiated field and strip objects from the knowledge of its scattered field. In particular, the study focuses on the evaluation of the point spread function (PSF), providing the reconstruction of a point-like unknown. Since this can be performed only numerically for most geometries, an approximate closed-form evaluation is introduced and compared with the exact one. Numerical results confirm the approximation accuracy, at least in the main lobe region of the PSF, which is the most important, as far as the discussion about resolution is concerned. The main results of the analysis concern the space invariance of the PSF of the considered geometries, which means that resolution is the same over the whole investigation domain, and the appreciation of its values for the inverse source and scattering problems.
topic inverse source problem
inverse scattering problem
point spread function
resolution
url https://www.mdpi.com/2079-9292/10/6/754
work_keys_str_mv AT ehsanakbarisekehravani psfanalysisoftheinversesourceandscatteringproblemsforstripgeometries
AT giovannileone psfanalysisoftheinversesourceandscatteringproblemsforstripgeometries
AT roccopierri psfanalysisoftheinversesourceandscatteringproblemsforstripgeometries
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