Fully polarimetric multi-aspect 3D InISAR

E. Giusti; A. Kumar; F. Mancuso; S. Ghio; M. Martorella

doi:10.23919/IRS54158.2022.9905018

Fully polarimetric multi-aspect 3D InISAR

E. Giusti, A. Kumar, F. Mancuso, S. Ghio, M. Martorella

Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This article proposes a fully polarimetric 3D InISAR algorithm. The use of radar polarimetry is proposed in this paper to increase the performance of the 3D InISAR algorithm. Polarimetry is used both to improve the scatterer extraction algorithm and to improve the estimation of the interferometric phases of the scatterers. The number of scatterers extracted depends on the spatial resolutions, the appearance of the target and the acquisition geometry. This number is typically low and results in an underpopulated 3D reconstruction that may not provide enough information to classify / recognize the target. Either polarimetry and multi-aspect 3D reconstruction are used to mitigate this issue. Results will be provided using either simulated data and the multi-aspect and fully polarimetric turntable dataset of the T72 tank, publicly available at SDMS-AFRL website.

Original language	English
Title of host publication	2022 23rd International Radar Symposium (IRS)
Publisher	IEEE Computer Society Press
Pages	184-189
Number of pages	6
ISBN (Electronic)	9788395602054, 9788395602047 (USB)
ISBN (Print)	9781665466301 (PoD)
DOIs	https://doi.org/10.23919/IRS54158.2022.9905018
Publication status	Published - 4 Oct 2022
Event	23rd International Radar Symposium, IRS 2022 - Gdansk, Poland Duration: 12 Sept 2022 → 14 Sept 2022

Publication series

Name	Proceedings International Radar Symposium
ISSN (Print)	2155-5745
ISSN (Electronic)	2155-5753

Conference

Conference	23rd International Radar Symposium, IRS 2022
Country/Territory	Poland
City	Gdansk
Period	12/09/22 → 14/09/22

Bibliographical note

Publisher Copyright:
© 2022 Warsaw University of Technology.

Keywords

3-D imaging
Multi-aspect
Polarimetry ISAR

ASJC Scopus subject areas

Computer Networks and Communications
Computer Science Applications
Signal Processing
Electrical and Electronic Engineering
Astronomy and Astrophysics
Instrumentation

Access to Document

10.23919/IRS54158.2022.9905018

Cite this

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title = "Fully polarimetric multi-aspect 3D InISAR",

abstract = "This article proposes a fully polarimetric 3D InISAR algorithm. The use of radar polarimetry is proposed in this paper to increase the performance of the 3D InISAR algorithm. Polarimetry is used both to improve the scatterer extraction algorithm and to improve the estimation of the interferometric phases of the scatterers. The number of scatterers extracted depends on the spatial resolutions, the appearance of the target and the acquisition geometry. This number is typically low and results in an underpopulated 3D reconstruction that may not provide enough information to classify / recognize the target. Either polarimetry and multi-aspect 3D reconstruction are used to mitigate this issue. Results will be provided using either simulated data and the multi-aspect and fully polarimetric turntable dataset of the T72 tank, publicly available at SDMS-AFRL website.",

keywords = "3-D imaging, Multi-aspect, Polarimetry ISAR",

author = "E. Giusti and A. Kumar and F. Mancuso and S. Ghio and M. Martorella",

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year = "2022",

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doi = "10.23919/IRS54158.2022.9905018",

language = "English",

isbn = "9781665466301 (PoD)",

series = "Proceedings International Radar Symposium",

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T1 - Fully polarimetric multi-aspect 3D InISAR

AU - Giusti, E.

AU - Kumar, A.

AU - Mancuso, F.

AU - Ghio, S.

AU - Martorella, M.

PY - 2022/10/4

Y1 - 2022/10/4

N2 - This article proposes a fully polarimetric 3D InISAR algorithm. The use of radar polarimetry is proposed in this paper to increase the performance of the 3D InISAR algorithm. Polarimetry is used both to improve the scatterer extraction algorithm and to improve the estimation of the interferometric phases of the scatterers. The number of scatterers extracted depends on the spatial resolutions, the appearance of the target and the acquisition geometry. This number is typically low and results in an underpopulated 3D reconstruction that may not provide enough information to classify / recognize the target. Either polarimetry and multi-aspect 3D reconstruction are used to mitigate this issue. Results will be provided using either simulated data and the multi-aspect and fully polarimetric turntable dataset of the T72 tank, publicly available at SDMS-AFRL website.

AB - This article proposes a fully polarimetric 3D InISAR algorithm. The use of radar polarimetry is proposed in this paper to increase the performance of the 3D InISAR algorithm. Polarimetry is used both to improve the scatterer extraction algorithm and to improve the estimation of the interferometric phases of the scatterers. The number of scatterers extracted depends on the spatial resolutions, the appearance of the target and the acquisition geometry. This number is typically low and results in an underpopulated 3D reconstruction that may not provide enough information to classify / recognize the target. Either polarimetry and multi-aspect 3D reconstruction are used to mitigate this issue. Results will be provided using either simulated data and the multi-aspect and fully polarimetric turntable dataset of the T72 tank, publicly available at SDMS-AFRL website.

KW - 3-D imaging

KW - Multi-aspect

KW - Polarimetry ISAR

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M3 - Conference contribution

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SN - 9781665466301 (PoD)

T3 - Proceedings International Radar Symposium

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BT - 2022 23rd International Radar Symposium (IRS)

PB - IEEE Computer Society Press

T2 - 23rd International Radar Symposium, IRS 2022

Y2 - 12 September 2022 through 14 September 2022

ER -

Fully polarimetric multi-aspect 3D InISAR

Abstract

Publication series

Conference

Bibliographical note

Keywords

ASJC Scopus subject areas

Access to Document

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Cite this