Polarimetric SAR modelling of a two-layer structure: A case study based on subarctic lakes

The work contributes to the interpretation of quad polarimetric SAR data over (shallow) subarctic lakes, on the purpose of investigating SAR capabilities in revealing facts about the subsurface and the inhomogeneities within the ice layer which are dominated mainly by methane bubbles. For this, a mo...

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Bibliographic Details
Main Author: Al-Kahachi, Noora
Format: Report
Language:English
Published: 2014
Subjects:
Radarkonzepte
Subarctic
Online Access:https://elib.dlr.de/87789/
https://elib.dlr.de/87789/1/Dissertation_Al-Kahachi.pdf
id ftdlr:oai:elib.dlr.de:87789
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:87789 2023-05-15T18:28:07+02:00 Polarimetric SAR modelling of a two-layer structure: A case study based on subarctic lakes Al-Kahachi, Noora 2014-01 application/pdf https://elib.dlr.de/87789/ https://elib.dlr.de/87789/1/Dissertation_Al-Kahachi.pdf en eng https://elib.dlr.de/87789/1/Dissertation_Al-Kahachi.pdf Al-Kahachi, Noora (2014) Polarimetric SAR modelling of a two-layer structure: A case study based on subarctic lakes. Dissertation. DLR-Forschungsbericht. DLR-FB 2014-01, 163 S. Radarkonzepte Berichtsreihe NonPeerReviewed 2014 ftdlr 2019-08-04T22:56:58Z The work contributes to the interpretation of quad polarimetric SAR data over (shallow) subarctic lakes, on the purpose of investigating SAR capabilities in revealing facts about the subsurface and the inhomogeneities within the ice layer which are dominated mainly by methane bubbles. For this, a model for the polarimetric backscattering from a two-layer structure observed by a fully polarimetric side looking synthetic aperture radar at low frequency (L-Band) is developed. The upper layer thickness is few metres thick and contains inhomogeneities. The developed model describes the backscattering as the incoherent sum of the three main contributions: subsurface (X-Bragg), volume and dihedral backscattering. The volume is modelled as a cloud of partially vertically oriented ellipsoids. The dihedral backscattering component is modelled as the electromagnetic wave reflected on the subsurface after being scattered by the same cloud of particles that is responsible for the volume backscattering. The mathematical formulation of this dihedral backscattering is presented for the first time here and proved to be an essential component in the model. The model simulations are compared to data obtained by ALOS-PALSAR over frozen shallow subarctic lakes acquired over several regions in the northern wetlands. ALOS data show the same polarimetric backscattered signature as the simulations. The model can describe temporal changes of the ice and the difference between grounded and floating ice. Report Subarctic German Aerospace Center: elib - DLR electronic library
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language English
topic Radarkonzepte
spellingShingle Radarkonzepte
Al-Kahachi, Noora
Polarimetric SAR modelling of a two-layer structure: A case study based on subarctic lakes
topic_facet Radarkonzepte
description The work contributes to the interpretation of quad polarimetric SAR data over (shallow) subarctic lakes, on the purpose of investigating SAR capabilities in revealing facts about the subsurface and the inhomogeneities within the ice layer which are dominated mainly by methane bubbles. For this, a model for the polarimetric backscattering from a two-layer structure observed by a fully polarimetric side looking synthetic aperture radar at low frequency (L-Band) is developed. The upper layer thickness is few metres thick and contains inhomogeneities. The developed model describes the backscattering as the incoherent sum of the three main contributions: subsurface (X-Bragg), volume and dihedral backscattering. The volume is modelled as a cloud of partially vertically oriented ellipsoids. The dihedral backscattering component is modelled as the electromagnetic wave reflected on the subsurface after being scattered by the same cloud of particles that is responsible for the volume backscattering. The mathematical formulation of this dihedral backscattering is presented for the first time here and proved to be an essential component in the model. The model simulations are compared to data obtained by ALOS-PALSAR over frozen shallow subarctic lakes acquired over several regions in the northern wetlands. ALOS data show the same polarimetric backscattered signature as the simulations. The model can describe temporal changes of the ice and the difference between grounded and floating ice.
format Report
author Al-Kahachi, Noora
author_facet Al-Kahachi, Noora
author_sort Al-Kahachi, Noora
title Polarimetric SAR modelling of a two-layer structure: A case study based on subarctic lakes
title_short Polarimetric SAR modelling of a two-layer structure: A case study based on subarctic lakes
title_full Polarimetric SAR modelling of a two-layer structure: A case study based on subarctic lakes
title_fullStr Polarimetric SAR modelling of a two-layer structure: A case study based on subarctic lakes
title_full_unstemmed Polarimetric SAR modelling of a two-layer structure: A case study based on subarctic lakes
title_sort polarimetric sar modelling of a two-layer structure: a case study based on subarctic lakes
publishDate 2014
url https://elib.dlr.de/87789/
https://elib.dlr.de/87789/1/Dissertation_Al-Kahachi.pdf
genre Subarctic
genre_facet Subarctic
op_relation https://elib.dlr.de/87789/1/Dissertation_Al-Kahachi.pdf
Al-Kahachi, Noora (2014) Polarimetric SAR modelling of a two-layer structure: A case study based on subarctic lakes. Dissertation. DLR-Forschungsbericht. DLR-FB 2014-01, 163 S.
_version_ 1766210469687721984

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