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	Provedor de dados ArchiMer (5) Autor Guitton, Gilles (5) Mouche, Alexis (5) Chapron, Bertrand (4) Aouf, L. (2) Collard, Fabrice (2) Delaye, L. (2) Husson, R. (2) Tison, C. (2) Alraddawi, D. (1) Amiot, T. (1) Ardhuin, Fabrice (1) Ardhuin, Fanny (1) Castillan, P. (1) Dagestad, Knut-frode (1) Dalila, M. (1) Dalphinet, A. (1) Dormy, E. (1) Gouillon, F. (1) Gressani, Victor (1) Grouazel, Antoine (1) Mais... Palavra-chave Scatterometer (2) 2D ocean wave spectrum (1) Altimeter (1) CFOSAT (1) Doppler (1) Instruments (1) Level-4 (1) Ocean remote sensing (1) Ocean wave spectra (1) Ocean wave-spectrometer (1) Ocean waves (1) Radar (1) Radar cross-sections (1) Radar measurements (1) SAR (1) Satellite (1) Sea ice (1) Sea surface (1) Spaceborne radar (1) Speckle noise (1) Mais... Tipo do documento Text (5) Ano 2021 (1) 2016 (2) 2015 (1) 2012 (1) País France (5) Idioma Inglês (5)		Registro completo Provedor de dados:  ArchiMer País:  France Título:  New Observations From the SWIM Radar On-Board CFOSAT: Instrument Validation and Ocean Wave Measurement Assessment Autores:  Hauser, Daniele Tourain, Cedric Hermozo, Laura Alraddawi, D. Aouf, L. Chapron, Bertrand Dalphinet, A. Delaye, L. Dalila, M. Dormy, E. Gouillon, F. Gressani, Victor Grouazel, Antoine Guitton, Gilles Husson, R. Mironov, Alexey Mouche, Alexis Ollivier, A. Oruba, L. Piras, E. Suquet, R. Rodriguez Schippers, P. Tison, C. Tran, Ngan Data:  2021-01 Ano:  2021 Palavras-chave:  Spaceborne radar Radar cross-sections Surface waves Sea surface Instruments Altimeter Ocean wave spectra Radar measurements Scatterometer Sea surface Spaceborne radar Speckle noise Resumo:  This article describes the first results obtained from the Surface Waves Investigation and Monitoring (SWIM) instrument carried by the China France Oceanography Satellite (CFOSAT), which was launched on October 29, 2018. SWIM is a Ku-band radar with a near-nadir scanning beam geometry. It was designed to measure the spectral properties of surface ocean waves. First, the good behavior of the instrument is illustrated. It is then shown that the nadir products (significant wave height, normalized radar cross section, and wind speed) exhibit an accuracy similar to standard altimeter missions, thanks to a new retracking algorithm, which compensates a lower sampling rate compared to standard altimetry missions. The off-nadir beam observations are analyzed in detail. The normalized radar cross section varies with incidence and wind speed as expected from previous studies presented in the literature. We illustrate that, in order to retrieve the wave spectra from the radar backscattering fluctuations, it is crucial to apply a speckle correction derived from the observations. Directional spectra of ocean waves and their mean parameters are then compared to wave model data at the global scale and to in situ data from a selection of case studies. The good efficiency of SWIM to provide the spectral properties of ocean waves in the wavelength range [70500 m] is illustrated. The main limitations are discussed, and the perspectives to improve the data quality are presented. Tipo:  Text Idioma:  Inglês Identificador:  https://archimer.ifremer.fr/doc/00677/78869/81168.pdf DOI:10.1109/TGRS.2020.2994372 https://archimer.ifremer.fr/doc/00677/78869/ Editor:  Ieee-inst Electrical Electronics Engineers Inc Formato:  application/pdf Fonte:  Ieee Transactions On Geoscience And Remote Sensing (0196-2892) (Ieee-inst Electrical Electronics Engineers Inc), 2021-01 , Vol. 59 , N. 1 , P. 5-26 Direitos:  info:eu-repo/semantics/openAccess restricted use Fechar

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