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The roles of the S3MPC:Monitoring, validation and evolution of sentinel-3 altimetry observations

Authors :
Quartly, Graham D.
Nencioli, Francesco
Raynal, Matthias
Bonnefond, Pascal
Garcia, Pablo Nilo
Garcia-Mondéjar, Albert
de la Cruz, Adrian Flores
Cretaux, Jean Francois
Taburet, Nicolas
Frery, Marie Laure
Cancet, Mathilde
Muir, Alan
Brockley, David
Mcmillan, Malcolm
Abdalla, Saleh
Fleury, Sara
Cadier, Emeline
Gao, Qi
Escorihuela, Maria Jose
Roca, Mònica
Bergé-Nguyen, Muriel
Laurain, Olivier
Bruniquel, Jerome
Femenias, Pierre
Lucas, Bruno
Quartly, Graham D.
Nencioli, Francesco
Raynal, Matthias
Bonnefond, Pascal
Garcia, Pablo Nilo
Garcia-Mondéjar, Albert
de la Cruz, Adrian Flores
Cretaux, Jean Francois
Taburet, Nicolas
Frery, Marie Laure
Cancet, Mathilde
Muir, Alan
Brockley, David
Mcmillan, Malcolm
Abdalla, Saleh
Fleury, Sara
Cadier, Emeline
Gao, Qi
Escorihuela, Maria Jose
Roca, Mònica
Bergé-Nguyen, Muriel
Laurain, Olivier
Bruniquel, Jerome
Femenias, Pierre
Lucas, Bruno
Publication Year :
2020

Abstract

The Sentinel-3 Mission Performance Centre (S3MPC) is tasked by the European Space Agency (ESA) to monitor the health of the Copernicus Sentinel-3 satellites and ensure a high data quality to the users. This paper deals exclusively with the effort devoted to the altimeter and microwave radiometer, both components of the Surface Topography Mission (STM). The altimeters on Sentinel-3A and-3B are the first to operate in delay-Doppler or SAR mode over all Earth surfaces, which enables better spatial resolution of the signal in the along-track direction and improved noise reduction through multi-looking, whilst the radiometer is a two-channel nadir-viewing system. There are regular routine assessments of the instruments through investigation of telemetered housekeeping data, calibrations over selected sites and comparisons of geophysical retrievals with models, in situ data and other satellite systems. These are performed both to monitor the daily production, assessing the uncertainties and errors on the estimates, and also to characterize the long-term performance for climate science applications. This is critical because an undetected drift in performance could be misconstrued as a climate variation. As the data are used by the Copernicus Services (e.g., CMEMS, Global Land Monitoring Services) and by the research community over open ocean, coastal waters, sea ice, land ice, rivers and lakes, the validation activities encompass all these domains, with regular reports openly available. The S3MPC is also in charge of preparing improvements to the processing, and of the development and tuning of algorithms to improve their accuracy. This paper is thus the first refereed publication to bring together the analysis of SAR altimetry across all these different domains to highlight the benefits and existing challenges.

Details

Database :
OAIster
Notes :
Quartly, Graham D. and Nencioli, Francesco and Raynal, Matthias and Bonnefond, Pascal and Garcia, Pablo Nilo and Garcia-Mondéjar, Albert and de la Cruz, Adrian Flores and Cretaux, Jean Francois and Taburet, Nicolas and Frery, Marie Laure and Cancet, Mathilde and Muir, Alan and Brockley, David and Mcmillan, Malcolm and Abdalla, Saleh and Fleury, Sara and Cadier, Emeline and Gao, Qi and Escorihuela, Maria Jose and Roca, Mònica and Bergé-Nguyen, Muriel and Laurain, Olivier and Bruniquel, Jerome and Femenias, Pierre and Lucas, Bruno (2020) The roles of the S3MPC:Monitoring, validation and evolution of sentinel-3 altimetry observations. Remote Sensing, 12 (11). ISSN 2072-4292
Publication Type :
Electronic Resource
Accession number :
edsoai.on1201479470
Document Type :
Electronic Resource