Improved oceanographic measurements with cryosat sar altimetry: Application to the coastal zone and arctic

The ESA CryoSat mission is the first space mission to carry a radar altimeter that can operate in Synthetic Aperture Radar “SAR” (or delay-Doppler) and interferometric SAR (SARin) modes. Studies on CryoSat data have analysed and confirmed the improved ocean measuring capability offered by SAR mode a...

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Main Authors: Cotton, P. D., Garcia, P. N., Cancet, M., Stenseng, Lars, Andersen, Ole Baltazar, Martin, F., Cipollini, P., Calafat, F. M., Dinardo, S., Ambrózio, A., Benveniste, J.
Format: Conference Object
Language:English
Published: 2016
Subjects:
Arctic
The Sentinel
Online Access:https://orbit.dtu.dk/en/publications/312f3620-3282-4056-9687-bec67c397dd2
http://lps16.esa.int/page_session140.php#341p
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spelling ftdtupubl:oai:pure.atira.dk:publications/312f3620-3282-4056-9687-bec67c397dd2 2024-06-23T07:48:40+00:00 Improved oceanographic measurements with cryosat sar altimetry: Application to the coastal zone and arctic Cotton, P. D. Garcia, P. N. Cancet, M. Stenseng, Lars Andersen, Ole Baltazar Martin, F. Cipollini, P. Calafat, F. M. Dinardo, S. Ambrózio, A. Benveniste, J. 2016 https://orbit.dtu.dk/en/publications/312f3620-3282-4056-9687-bec67c397dd2 http://lps16.esa.int/page_session140.php#341p eng eng https://orbit.dtu.dk/en/publications/312f3620-3282-4056-9687-bec67c397dd2 info:eu-repo/semantics/openAccess Cotton , P D , Garcia , P N , Cancet , M , Stenseng , L , Andersen , O B , Martin , F , Cipollini , P , Calafat , F M , Dinardo , S , Ambrózio , A & Benveniste , J 2016 , ' Improved oceanographic measurements with cryosat sar altimetry: Application to the coastal zone and arctic ' , ESA Living Planet Symposium 2016 , Prague , Czech Republic , 09/05/2016 - 13/05/2016 . < http://lps16.esa.int/page_session140.php#341p > conferenceObject 2016 ftdtupubl 2024-06-04T15:14:17Z The ESA CryoSat mission is the first space mission to carry a radar altimeter that can operate in Synthetic Aperture Radar “SAR” (or delay-Doppler) and interferometric SAR (SARin) modes. Studies on CryoSat data have analysed and confirmed the improved ocean measuring capability offered by SAR mode altimetry, through increased resolution and precision in sea surface height and wave height measurements, and have also added significantly to our understanding of the issues around the processing and interpretation of SAR altimeter echoes. We present work in four themes, building on work initiated in the CryoSat Plus for Oceans project (CP4O), each investigating different aspects of the opportunities offered by this new technology. The first two studies address the coastal zone, a critical region for providing a link between open-ocean and shelf sea measurements with those from coastal in-situ measurements, in particular tide gauges. Although much has been achieved in recent years through the Coastal Altimetry community, (http://www.coastalt.eu/community) there is a limit to the capabilities of pulse-limited altimetry which often leaves an un-measured “white strip” right at the coastline. Firstly, a thorough analysis was made of the performance of “SAR” altimeter data (delay-Doppler processed) in the coastal zone. This quantified the performance, confirming the significant improvement over “conventional” pulse-limited altimetry. In the second study a processing scheme was developed with CryoSat SARin mode data to enable the retrieval of valid oceanographic measurements in coastal areas with complex topography. Thanks to further development of the algorithms, a new approach was achieved that can also be applied to SAR and conventional altimetry data (e.g., Sentinel-3, Jason series, EnviSat). The third part of the project developed and evaluated improvements to the SAMOSA altimeter re-tracker that is implemented in the Sentinel-3 processing chain. The modifications to the processing scheme should support improved ... Conference Object Arctic Arctic Technical University of Denmark: DTU Orbit Arctic The Sentinel ENVELOPE(73.317,73.317,-52.983,-52.983)
institution Open Polar
collection Technical University of Denmark: DTU Orbit
op_collection_id ftdtupubl
language English
description The ESA CryoSat mission is the first space mission to carry a radar altimeter that can operate in Synthetic Aperture Radar “SAR” (or delay-Doppler) and interferometric SAR (SARin) modes. Studies on CryoSat data have analysed and confirmed the improved ocean measuring capability offered by SAR mode altimetry, through increased resolution and precision in sea surface height and wave height measurements, and have also added significantly to our understanding of the issues around the processing and interpretation of SAR altimeter echoes. We present work in four themes, building on work initiated in the CryoSat Plus for Oceans project (CP4O), each investigating different aspects of the opportunities offered by this new technology. The first two studies address the coastal zone, a critical region for providing a link between open-ocean and shelf sea measurements with those from coastal in-situ measurements, in particular tide gauges. Although much has been achieved in recent years through the Coastal Altimetry community, (http://www.coastalt.eu/community) there is a limit to the capabilities of pulse-limited altimetry which often leaves an un-measured “white strip” right at the coastline. Firstly, a thorough analysis was made of the performance of “SAR” altimeter data (delay-Doppler processed) in the coastal zone. This quantified the performance, confirming the significant improvement over “conventional” pulse-limited altimetry. In the second study a processing scheme was developed with CryoSat SARin mode data to enable the retrieval of valid oceanographic measurements in coastal areas with complex topography. Thanks to further development of the algorithms, a new approach was achieved that can also be applied to SAR and conventional altimetry data (e.g., Sentinel-3, Jason series, EnviSat). The third part of the project developed and evaluated improvements to the SAMOSA altimeter re-tracker that is implemented in the Sentinel-3 processing chain. The modifications to the processing scheme should support improved ...
format Conference Object
author Cotton, P. D.
Garcia, P. N.
Cancet, M.
Stenseng, Lars
Andersen, Ole Baltazar
Martin, F.
Cipollini, P.
Calafat, F. M.
Dinardo, S.
Ambrózio, A.
Benveniste, J.
spellingShingle Cotton, P. D.
Garcia, P. N.
Cancet, M.
Stenseng, Lars
Andersen, Ole Baltazar
Martin, F.
Cipollini, P.
Calafat, F. M.
Dinardo, S.
Ambrózio, A.
Benveniste, J.
Improved oceanographic measurements with cryosat sar altimetry: Application to the coastal zone and arctic
author_facet Cotton, P. D.
Garcia, P. N.
Cancet, M.
Stenseng, Lars
Andersen, Ole Baltazar
Martin, F.
Cipollini, P.
Calafat, F. M.
Dinardo, S.
Ambrózio, A.
Benveniste, J.
author_sort Cotton, P. D.
title Improved oceanographic measurements with cryosat sar altimetry: Application to the coastal zone and arctic
title_short Improved oceanographic measurements with cryosat sar altimetry: Application to the coastal zone and arctic
title_full Improved oceanographic measurements with cryosat sar altimetry: Application to the coastal zone and arctic
title_fullStr Improved oceanographic measurements with cryosat sar altimetry: Application to the coastal zone and arctic
title_full_unstemmed Improved oceanographic measurements with cryosat sar altimetry: Application to the coastal zone and arctic
title_sort improved oceanographic measurements with cryosat sar altimetry: application to the coastal zone and arctic
publishDate 2016
url https://orbit.dtu.dk/en/publications/312f3620-3282-4056-9687-bec67c397dd2
http://lps16.esa.int/page_session140.php#341p
long_lat ENVELOPE(73.317,73.317,-52.983,-52.983)
geographic Arctic
The Sentinel
geographic_facet Arctic
The Sentinel
genre Arctic
Arctic
genre_facet Arctic
Arctic
op_source Cotton , P D , Garcia , P N , Cancet , M , Stenseng , L , Andersen , O B , Martin , F , Cipollini , P , Calafat , F M , Dinardo , S , Ambrózio , A & Benveniste , J 2016 , ' Improved oceanographic measurements with cryosat sar altimetry: Application to the coastal zone and arctic ' , ESA Living Planet Symposium 2016 , Prague , Czech Republic , 09/05/2016 - 13/05/2016 . < http://lps16.esa.int/page_session140.php#341p >
op_relation https://orbit.dtu.dk/en/publications/312f3620-3282-4056-9687-bec67c397dd2
op_rights info:eu-repo/semantics/openAccess
_version_ 1802639004884008960

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