Satellite-derived high-resolution sea-ice motion, 2007-2011 - Envisat Satellite Data

Progress Code: onGoing Statement: The geolocation accuracy of the relevant Envisat ASAR products have an absolute error of up to 750 m (10 pixels) due to inaccuracies in the positional specifications in the SAR image headers. However, as the sea-ice motion applies a differencing technique, the absol...

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Bibliographic Details
Other Authors: AADC (owner), AADC, DATA OFFICER (distributor), AADC, DATA OFFICER (custodian), AU/AADC > Australian Antarctic Data Centre, Australia (hasAssociationWith), Australian Antarctic Data Centre (publisher), Australian Antarctic Division (sponsor), HEIL, PETRA (collaborator), HEIL, PETRA (hasPrincipalInvestigator), HEIL, PETRA (author), HYLAND, GLENN (collaborator), HYLAND, GLENN (hasPrincipalInvestigator), HYLAND, GLENN (author), Heil, P. and Hyland, G. (originator)
Format: Dataset
Language:unknown
Published: Australian Ocean Data Network
Subjects:
oceans
EARTH SCIENCE &gt
OCEANS &gt
SEA ICE &gt
SEA ICE MOTION
CRYOSPHERE &gt
IMAGE CROSSCORRELATION
SAR &gt
Synthetic Aperture Radar
ENVISAT &gt
Environmental Satellite
ACE/CRC
AMD/AU
AMD
CEOS
GEOGRAPHIC REGION &gt
POLAR
OCEAN &gt
SOUTHERN OCEAN
CONTINENT &gt
ANTARCTICA
Antarc*
Antarctic
Antarctica
Sea ice
Southern Ocean
Online Access:https://researchdata.edu.au/satellite-derived-high-satellite-data/2816427
Description
Summary:Progress Code: onGoing Statement: The geolocation accuracy of the relevant Envisat ASAR products have an absolute error of up to 750 m (10 pixels) due to inaccuracies in the positional specifications in the SAR image headers. However, as the sea-ice motion applies a differencing technique, the absolute errors offset each other and derived ice displacement are in the order of 1.5pixels width or 115m. Purpose The purpose of this dataset was to create a NetCDF-format database of high-resolution(:SAR) Antarctic sea-ice motion vectors. Envisat was was launched on 01/03/2002, by ESA and operated until 08/04/2012. It provided suitable imagery for the austral winters (May - November) of 2007 to 2011. Envisat caried a C-band (5.33 GHz; wavelength ∼ 5.6 cm) Advanced Synthetic Aperture Radar [ASAR], capable to acquire data in multiple modes (image, alternating polarization, wave, ScanSAR (wide swath), and ScanSAR (global monitoring)) at various incidence angles and in several polarisations. Of ASAR's five distinct measurement modes, the following two modes may be used to derive sea-ice motion from overlapping images in our project: 1. ASAR Wide Swath Mode -- 400 km by 400 km wide swath image. Spatial resolution of approximately 150 m by 150 m for nominal product. VV or HH polarization. 2. ASAR Global Monitoring Mode -- Spatial resolution of approximately 1000 m in azimuth by 1000 m in range for nominal product. Up to a full orbit of coverage. HH or VV polarization. For further detail, see ESA's Copernicus web portal. Sea-ice motion is derived from suitable SAR image pairs with sufficient spatial overlap but relatively short time separation, i.e. ideally 6days or less. Image-crosscorrelation analysis is employed to identify displacement vectors within the image pair. The underlying processing and analysis is part of the (mostly) automated IMCORR [IMageCORRelation] Processing, Analysis and Display System [IPADS]. This study uses C-band (HH polarisation) ASAR scenes, with an image pixel size of 75 m across a 405 km ...

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